Modulation of tetraspanin function

ABSTRACT

Tetraspanins have been found to dimerise. Methods for inhibiting or promoting the dimerisation of tetraspanins are provided, which may involve protein engineering of the tetraspanins themselves, or may rely on other molecules.

TECHNICAL FIELD

This invention is in the field of tetraspanins, more particularly the modulation of their function.

BACKGROUND ART

Since its discovery in 1990, the tetraspanin superfamily (also known as TM4, 4TM, TM4SF, and tetraspans) has grown to include around 20 proteins [refs 1 & 2]. All of the members are cell-surface proteins that span the membrane four times, forming two extracellular loops. Some are found in organisms as primitive as schistosomes and nematodes.

The tetraspanins are diverse. Some are found in virtually all tissues (CD81, CD82, CD9, CD63), whereas others are highly restricted, such as CD37 (B cells) or CD53 (lymphoid and myeloid cells). Functionally, they are involved in diverse processes such as cell activation and proliferation, adhesion and motility, differentiation, and cancer. Many tetraspanins are being discovered as tumor-associated antigens, related to tumor growth and proliferation [2, 3]. This is in line with an emerging body of evidence indicating that tetraspanins are key players in the regulation of cell adhesion, proliferation, activation and migration. It has been proposed that all these functions may relate to the proteins' ability to act as ‘molecular facilitators’ which group specific cell-surface proteins and thus increase the formation and stability of functional signalling complexes.

DISCLOSURE OF THE INVENTION

The invention is based on the surprising discovery that CD81, a prototype tetraspanin, forms stable dimers. Modulation of the ability of tetraspanins to dimerise offers the ability to modulate their functional activity. Thus the invention provides, generally, methods for inhibiting or promoting the dimerisation of tetraspanins. These methods may involve protein engineering of the tetraspanins themselves, or may rely on other molecules.

Protein Engineering

The large extracellular loop (LEL; amino acids 113–201) (SEQ ID NO: 2) of human CD81 (SEQ ID NO: 1) has been shown to dimerise. There are two main regions of interface between monomers, involving the following amino acid residues:

-   (i) The first interface is between antiparallel α-helices and     involves primarily residues Val114, Ile119, Val123, Gln125, Phe126     and Gln129. Gln129 in one monomer forms a hydrogen bond with Val114     in the other. Solvent-mediated interactions between exposed polar     side chains are also involved at the rim of the contact region. -   (ii) The second interface region includes residues Asn142, Val146,     Thr149, Phe150, Thr153 and Leu154 in one monomer which contact     Leu197, Phe198, Ser199 and Gly200 in the other monomer. Ser199 in     one monomer forms a hydrogen bond with Asn142 in the other.

Mutation of these residues thus allows the dimerisation ability of CD81 to be modulated.

The corresponding amino acids in other tetraspanins can be similarly mutated. As the tetraspanins are highly homologous, an amino acid alignment allows the simple determination of the precise amino acids in other tetraspanins that correspond to those of CD81. One such alignment is shown in FIG. 2 herein, with residues corresponding to the CD81 contact residues highlighted. As an example, CD81 residue 114 can be seen to correspond to the following residues:

Protein Accession n° CD81 residue 114 Human CD81 NP_004347 114 Human CD9 NP_001760 112 Human TSPAN2 NP_005716 111 Murine CD53 NP_031677 105 Human CD82 NP_002222 108 Human CD63 NP_001771 106 Human TALLA-1 AAF44123  84 Human NET4 AAC17120 114

Thus the invention provides a method for modulating the ability of a tetraspanin protein to form dimers with the wild-type tetraspanin, comprising the steps of mutating at least one of the amino acids corresponding to human CD81 residues 114, 119, 123, 125, 126, 129, 142, 146, 149, 150, 153, 154, 197, 198, 199 and 200.

The tetraspanin is preferably human CD81 (SEQ ID NO: 1), which has the amino acid sequence:

1 MGVEGCTKCI KYLLFVFNFV FWLAGGVILG VALWLRHDPQ TTNLLYLELG DKPAPNTFYV 61 GIYILTAVGA VMMFVGFLGC YGAIQESQCL LGTFFTCLVI LFACEVAAGI WGFVNKDQIA 121 KDVKQFYDQA LQQAVVDDDA NNAKAVVKTF HETLDCCGSS TLTALTTSVL KNNLCPSGSN 181 IISNLFKEDC HQKIDDLFSG KLYLIGIAAI VVAVIMIFEM ILSMVLCCGI RNSSVY

As the wild-type interface is largely non-polar (70% of 986 Å² in CD81), where it is desired to inhibit dimerisation, it is preferred that a non-polar residues should be replaced by polar residues (e.g. Ser, Thr, Tyr, Cys, Asn, Gln, Asp, Glu, Lys, Arg, His). Conversely, where promotion of dimerisation is desired, non-polar residues should be replaced by other non-polar residues (e.g. Ala, Gly, Val, Leu, Ile, Met, Pro, Trp, Phe).

The invention also provides (i) a mutant tetraspanin protein which, compared with the wild-type protein, has an increased ability to form a dimer with the wild-type protein, and (ii) a mutant tetraspanin protein which, compared with the wild-type protein, has a decreased ability to form a dimer with the wild-type protein.

The mutant tetraspanin preferably has a non-wild-type amino acid at one or more residues corresponding to human CD81 (SEQ ID NO: 1) residues 114, 119, 123, 125, 126, 129, 142, 146, 149, 150, 153, 154, 197, 198, 199 and 200.

The mutant tetraspanin is preferably a mutant human CD81.

The invention also provides a tetraspanin dimer, wherein one or both of the monomers is a mutant tetraspanin according to the invention. Where both monomers are mutants, they may carry the same or different mutations.

Compounds which Inhibit Dimerisation

As an alternative to modulating dimerisation capability by changing a tetraspanin's amino acid sequence, compounds which interact with the hydrophobic monomer:monomer interface and thereby inhibit or promote the interaction, can be used.

A variety of methods can be used to identify compounds which can bind to the interface, such as structure-based drug design methods or screening methods.

Structure-based Drug Design Techniques

Structure-based drug design techniques can be applied to structural representations of tetraspanins in order to identify compounds that interact at the monomer:monomer interface regions and block dimerisation. A variety of suitable techniques [e.g. ref. 4] are available to the skilled person.

The invention provides a computer-based method for identifying a ligand which can interact with a tetraspanin to promote or inhibit its ability to dimerise, comprising the steps of: (a) providing a 3D structural representation of the tetraspanin in a storage medium on a computer; and (b) using the computer to apply structure-based drug design techniques to the structural representation.

Software packages for implementing molecular modelling techniques for use in structure-based drug design include SYBYL [5], AMBER [6], CERIUS² [7], INSIGHT II [7], CATALYST [7], QUANTA [7], HYPERCHEM [8], CHEMSITE [9] etc.

This software can be used to determine binding surfaces of the tetraspanins in order to reveal features such as van der Waals contacts, electrostatic interactions, and/or hydrogen bonding opportunities. These binding surfaces may be used as follows:

Docking

Docking aligns the 3D structures of two or more molecules to predict the conformation of a complex formed from the molecules [e.g. ref 10]. According to the present invention, molecules are docked with a tetraspanin structure to assess their ability to interact with the tetraspanin.

Docking can be accomplished by either geometric matching of the ligand and its receptor or by minimising the energy of interaction. Geometric matching algorithms are preferred because of their relative speed.

Suitable docking algorithms include, but are not limited to:

-   -   DOCK [11], the prototypical program for structure-based drug         design.     -   AUTODOCK [12, 6], which docks ligands in a flexible manner to         receptors using grid-based Monte Carlo simulated annealing. The         flexible nature of the AUTODOCK procedure helps to avoid bias         (e.g. in orientation and conformation of the ligand in the         active site) introduced by the user researcher [13] because,         whilst the starting conformation in a rigid docking is normally         biased towards an minimum energy conformation of the ligand, the         binding conformation may be of relatively high conformational         energy [14].     -   MOE-DOCK [15], in which a simulated annealing search algorithm         is used to flexibly dock ligands. A grid-based energy evaluation         is used to score docked conformations.     -   FLExX [5], which docks conformationally flexible ligands into a         binding site using an incremental construction algorithm that         builds the ligand in the site. Docked conformations are scored         based on the strength of ligand-receptor interactions.     -   GOLD [16], a genetic algorithm for flexible ligand docking, with         full ligand and partial protein flexibility. Energy functions         are partly based on conformation and non-bonded contact         information.     -   AFFINITY [7], which uses a two step process to dock ligands.         First, initial placements of the ligand within the receptor are         made using a Monte Carlo type procedure to search both         conformational and Cartesian space. Second, a simulated         annealing phase optimises the location of each ligand placement.         During this phase, AFFINITY holds the ‘bulk’ of the receptor         (atoms not in the binding site) rigid, while the binding site         atoms and ligand atoms are movable.     -   C².LigandFit [7], which uses the energy of the ligand-receptor         complex to automatically find best binding modes. Stochastic         conformational search technique are used, and the best results         from the conformational sampling are retained. A grid method is         used to evaluate non-bonded interactions between the rigid         receptor and the flexible ligand atoms.

Preferably, the docking algorithm is used in a ‘high throughput’ mode, in which members of large structural libraries of potential ligands are screened against the receptor structure [17].

Suitable structural libraries include the ACD (Available Chemical Directory, from MDL mc), AsInEx, Bionet, ComGenex, the Derwent World Drug Index (WDI), the Contact Service Company database, LaboTest, ChemBridge Express Pick, ChemStar, BioByteMasterFile, Orion, Sigma-Aldrich Library of Rare Chemicals (SALOR), Tricyclics for Automated Design (TRIAD), ILIAD database (University of California), the National Cancer Institute database (NCI), and the Aldrich, Fluka, Sigma and Maybridge catalogs. These are commercially available (e.g. the HTS Chemicals collections from Oxford Molecular, or the LeadQuest™ files from Tripos).

Pharmacophore Hypotheses

A pharmacophore (i.e. a collection of chemical features and 3D constraints that expresses specific characteristics responsible for activity) can be defined for a tetraspanin. The pharmacophore preferably includes surface-accessible features, more preferably including hydrogen bond donors and acceptors, charged/ionisable groups, and/or hydrophobic patches. These may be weighted depending on their relative importance in conferring activity [18].

Pharmacophores can be determined using software such as CATALYST (including HypoGen or HipHop) [7], CERIUS², or constructed by hand from a known conformation of a lead compound. The pharmacophore can be used to screen structural libraries, using a program such as CATALYST [7]. The CLIX program [19] can also be used, which searches for orientations of candidate molecules in structural databases that yield maximum spatial coincidence with chemical groups which interact with the receptor.

De Novo Compound Design

The binding surface or pharmacophore of a tetraspanin can be used to map favourable interaction positions for functional groups (e.g. protons, hydroxyl groups, amine groups, hydrophobic groups and/or divalent cations) or small molecule fragments. Compounds can then be designed de novo in which the relevant functional groups are located in the correct spatial relationship to interact with the tetraspanin.

Once functional groups or small molecule fragments which can interact with specific sites in the tetraspanin's binding surface have been identified, they can be linked in a single compound using either bridging fragments with the correct size and geometry or frameworks which can support the functional groups at favourable orientations, thereby providing a compound according to the invention. Whilst linking of functional groups in this way can be done manually, perhaps with the help of software such as QUANTA or SYBYL, automated or semi-automated de novo design approaches are also available:

-   -   MCDLNG [20], which fills a receptor binding site with a         close-packed array of generic atoms and uses a Monte Carlo         procedure to randomly vary atom types, positions, bonding         arrangements and other properties.     -   MCSS/HOOK [21, 22, 7], which links multiple functional groups         with molecular templates taken from a database.     -   LUDI [23, 7], which computes the points of interaction that         would ideally be fulfilled by a ligand, places fragments in the         binding site based on their ability to interact with the         receptor, and then connects them to produce a ligand.     -   GROW [24], which starts with an initial ‘seed’ fragment (placed         manually or automatically) and grows the ligand outwards.     -   SPROUT [25], suite which includes modules to: identify         favourable hydrogen bonding and hydrophobic regions within a         binding pocket (HIPPO module); select functional groups and         position them at target sites to form starting fragments for         structure generation (EleFAnT); generate skeletons that satisfy         the steric constraints of the binding pocket by growing spacer         fragments onto the start fragments and then connecting the         resulting part skeletons (SPIDeR); substitute hetero atoms into         the skeletons to generate molecules with the electrostatic         properties that are complementary to those of the receptor site         (MARABOU). The solutions can be clustered and scored using the         ALLigaTOR module.     -   LEAPFROG [5], which evaluates ligands by making small stepwise         structural changes and rapidly evaluating the binding energy of         the new compound. Changes are kept or discarded based on the         altered binding energy, and structures evolve to increase the         interaction energy with the receptor.     -   GROUPBUILD [26], which uses a library of common organic         templates and a complete empirical force field description of         the non-bonding interactions between a ligand and receptor to         construct ligands that have chemically reasonable structure and         have steric and electrostatic properties complimentary to the         receptor binding site.     -   CAVEAT [27], which designs linking units to constrain acyclic         molecules.     -   RASSE [28]         The Binding Site

To simplify computational complexity, algorithms for docking and ligand design will typically focus only on the binding site of a receptor—it is pointless to attempt to dock a ligand with a region in the receptor which is known not to be involved. Binding site identification is included in some algorithms (e.g. C².LigandFit, the ‘Binding Site Analysis’ module of INSIGHT II, the SPHGEN routine of DOCK). Some manual guidance may be required (e.g. AFFINITY).

Where a binding site has to be defined for a tetraspanin, this will typically comprise amino acids corresponding to human CD81 (SEQ ID NO: 1) residues (A) 114, 119, 123, 125, 126, 129, and/or (B) 142, 146, 149, 150, 153, 154, 197, 198, 199 and 200.

The Structural Representation

Structure-based design methods use a 3D structural representation of a tetraspanin. This may be a representation of (a) the complete tetraspanin, (b) a fragment of the tetraspanin that comprises the large extracellular loop (LEL), or (c) a fragment of the tetraspanin which includes the amino acids which interact with another tetraspanin to form a dimer.

The structural representation is preferably based on or derived from the atomic co-ordinates cd81lel.pdb as set out herein, which represents the CD81 tetraspanin LEL dimer [see also refs. 29, 30 & 31]. Suitable structural representations include 3D models and molecular surfaces derived from these atomic co-ordinates.

Variants of cd81lel.pdb can also be used for the invention, such as variants in which the r.m.s. deviation of the x, y and z co-ordinates for all heavy (i.e. not hydrogen) atoms are all less than 2.5 Å (e.g. less than 2 Å, preferably less than 1 Å, and more preferably less than 0.5 Å or less than 0.1 Å) compared with cd81.pdb. Co-ordinate transformations which retain the 3D spatial relationships of atoms may also be used to give suitable variants.

Preferred fragments of the tetraspanins whose co-ordinates can be used in the invention are:

-   -   amino acids corresponding to human CD81 (SEQ ID NO: 1) residues         114, 119, 123, 125, 126, 129; and/or     -   amino acids corresponding to human CD81 (SEQ ID NO: 1) residues         142, 146, 149, 150, 153, 154, 197, 198, 199 and 200.

It is preferred that the methods of the invention use only one protein chain i.e. only of the monomers in cd81lel.pdb. Where only one monomer is used, it is preferred to use the first monomer (residues 113–202) rather than the second (residues 213–302).

The water molecules in cd81lel.pdb can optionally be omitted when performing the methods of the invention.

The Storage Medium

The storage medium in which the tetraspanin structural representation is provided is preferably random-access memory (RAM), but may also be read-only memory (ROM e.g. CDROM), or a diskette. The storage medium may be local to the computer, or may be remote (e.g. a networked storage medium, including the internet).

Any suitable computer can be used in the present invention.

Testing Designed Compounds

The methods of the invention may comprise the further steps of: (c) providing a compound identified by said structure-based drug design techniques; and (d) contacting said compound with a tetraspanin, or a fragment thereof containing its LEL, and assaying the interaction between them.

Screening Methods

As well as using in silico methods, ‘traditional’ in vitro or in vivo methods of the pharmaceutical industry can be used to identify compounds that inhibit or promote dimerisation. The compounds may interact at the tetraspanin monomer:monomer interface regions. Typical assays will involve incubating test compounds with the tetraspanin of interest and observing whether dimerisation of the tetraspanin is promoted or inhibited, relative to wild-type:wild-type dimerisation.

In general, compounds will be identified by high-throughput screening libraries of test compounds. As well as using general compound libraries, more specific libraries can be used. These might be suggested by using the in silico approach discussed above—important pharmaceutical motifs in the ligands can be identified and mimicked in compound libraries (e.g. combinatorial libraries) for screening for dimerisation inhibition/promotion activity.

A recent approach to identifying molecules which interact at a protein:protein interface is described in reference 32, and the use of polypeptide display is described in reference 33.

Compounds and their Uses

The methods of the invention identify compounds that can that interact at tetraspanin monomer:monomer interface regions and either inhibit or promote dimerisation. These compounds may be designed de novo, may be known compounds, or may be based on known compounds. The compounds may be useful pharmaceuticals themselves, or may be prototypes which can be used for further pharmaceutical refinement (i.e. lead compounds) in order to improve binding affinity or other pharmacologically important features (e.g. bio-availability, toxicology, metabolism, pharmacokinetics etc.).

The invention thus provides: (i) a compound identified using the methods of the invention; (ii) a compound identified using the methods of the invention for use as a pharmaceutical; (iii) the use of a compound identified using the methods of the invention in the manufacture of a medicament; and (iv) a method of treating a patient, comprising administering an effective amount of a compound identified using the methods of the invention.

The invention also provides a compound which can either (i) interact with a tetraspanin protein and thereby inhibit the tetraspanin's ability to dimerise, or (ii) interact with a tetraspanin protein and thereby promote the tetraspanin's ability to dimerise.

The compounds of the invention preferably interact with a tetraspanin with a binding constant in the micromolar or, more preferably, nanomolar range or stronger.

Dimers

The invention also provides a tetraspanin in dimeric form.

This may be a homodimer (i.e. a dimer consisting of two identical tetraspanins) or a heterodimer (i.e. a dimer consisting of two different tetraspanins).

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 shows: (1A) the CD81-LEL isolated chain tertiary structure, highlighting the head domain localisation relative to the N- and C-terminal helices (α-helices A and E, respectively), and the labelling of secondary structure elements. The two disulphide bridges are shown by yellow bonds; (1B) the dimeric CD81-LEL, showing the two subunits in blue and purple, with the helix labels distinguished by a ′ symbol. The molecular two-fold axis is close to vertical, and located between the N- and C-termini of the two chains. Solid dots in the purple subunit trace an approximate path for the loops not observable in the electron density maps. (1C) A GRASP view of the molecular surface of the CD81-LEL dimer, in an orientation corresponding that of the blue subunit in panel 1A. This orientation brings α-helices C and D in the foreground; they can be recognised by comparison to panel A and by the low polarity region (white colour) in the upper part of the molecular surface.

FIG. 2 shows an amino acid sequence alignment of LEL segments from mammalian CD81 and other tetraspanins. A symbol indicating the secondary structure [PROCHECK, ref. 34; H=α-helix; G=3₁₀ helix] is shown on the top line. On the leftmost column, name and organism are indicated. The accession numbers for the sequences used in the alignment are: human CD81 (SEO ID NO: 2), NP_(—)004347; Saguinus oedipus (SEQ ID NO: 4), CAB89875; rat (SEQ ID NO: 6), NP_(—)037219; mouse (SEQ ID NO: 7), P35762; human CD9 (SEQ ID NO: 8), NP_(—)001760; human TSPAN2 (SEQ ID NO: 9), NP_(—)005716; mouse CD53 (SEQ ID NO: 10), NP_(—)031677; human CD82 (SEQ ID NO: 11), NP_(—)002222; human CD63 (SEQ ID NO: 12), NP_(—)001771; human TALLA1 (SEQ ID NO: 13), AAF4412; human NET4 (SEQ ID NO: 14), AAC17120. Amino acid sequences of CD81 from chimpanzee (SEQ ID NO: 15), green monkey (SEQ ID NO: 3), and hamster (SEQ ID NO: 5) have been obtained from ref. 35. The last four sequences contain insertions which have not been included in the alignment to avoid the introduction of long gaps, located between pairs of underlined residues. In detail, the insertion stretches are: in CD82 (SEQ ID NO: 11), eLMNRPEVTy and sLSVRKGFCEAPGNRTQSGNHPEDWPy; in CD63 (SEQ ID NO: 12), dWEKIPs, cINVTVGc and kAi; in TALLA1 (SEQ ID NO: 13), sPYFLEh, cMNETDc and tVAATKVNq; in NET4 (SEQ ID NO: 14), aFGADDWNLNIYFNCt and dVINTQCGYDARQKPEVDQQIv. The conserved Cys residues are enclosed in yellow boxes. Amino acids involved in the association interface are shown in pink boxes. The residues which are different between hCD81-LEL and agmCD81-LEL or tamCD81-LEL are marked in green or blue, respectively. Note that residue 163 is mutated in agmCD81-LEL and in tamCD81-LEL.

FIG. 3 shows: (3A) a schematic view of the location of Cys156—Cys190 and Cys 157—Cys175 disulphide bridges (yellow bonds) within the head domain of CD81-LEL. The additional residues displayed are the sites of mutation observed in agmCD81-LEL (green) and in tamCD81-LEL (red); (3B) the residues surrounding Tyr127, the head domain core, including electron density for the two disulphide bridges; (3C) a molecular surface representation of the CD81-LEL dimer, showing mutation sites 163, 186 and 196 (green patches) which have been shown to affect binding to HCV E2. Phe196 is in the upper-right part of the figure.

FIGS. 4 and 5 show Western blots of immunoprecipitated heterodimers.

MODES FOR CARRYING OUT THE INVENTION

CD81-LEL Production

CD81-LEL was purified from a recombinant E. coli strain as a fusion protein with the IgG binding domain of the S. aureus protein A. After purification of the chimeric protein, CD81-LEL was separated from the fusion by specific protease cleavage and further purified for the crystallization experiments. The purified protein was fully active as judged by the recombinant E2/CD81 inhibition of binding assay [35].

CD81-LEL Crystallisation

Crystals of CD81-LEL were obtained by mixing purified CD81-LEL at 10 mg/ml with 0.1M MES buffer (pH 6.0), 0.1M sodium chloride, and 10% PEG4000. The crystals belong to the monoclinic space group P2₁ (a=31.5 Å, b=77.2 Å, c=38.5 Å, β=107.4°), with two molecules per asymmetric unit (Vm of 2.16 Å³/dalton). Crystals were flash-cooled at 100K with addition of 20% glycerol as cryoprotectant.

Whilst native crystals could be obtained easily, it was difficult to obtain suitable heavy atom derivatives for multiple isomorphous replacement techniques.

Three suitable derivatives were eventually produced, based on Lu, Hg and Pt:

Parameter Native 1 LuCl₃ Hg(Ac)₂ K₂PtCl₆ Native2 Diffraction data Wavelength (Å) 1.54 1.54 1.54 1.54 0.93 Resolution (Å) 2.7 2.7 3.0 3.3 1.6 Unique reflections 5136 4979 3619 2521 21557 R_(merge) (%) 5.8 6.0 8.4 4.4 3.8 Completeness (%) 99.7 98.0 98.1 91.8 98.0 (99.4) (93.4) (97.1) (87.5) (93.1) Redundancy 3.4 2.0 3.2 8.2 6.9 MIR phasing Phasing power/R_(cullis) (acentric) 1.49/0.78 1.25/0.84 1.30/0.87 (centric) 1.16/0.82 0.98/0.85 0.90/0.89 (anom) 0.95/0.97 0.66/0.99 0.65/0.99 Overall FOM (acentric/centric) 0.63/0.58 Refinement Resolution range 20.0–1.6 R_(factor)/R_(free) (%) 18.7/23.8 No. of protein atoms 1345 No. of solvent atoms 194 Ramachandran distribution % core 92.4 % allowed 7.6 % generous 0.0 % disallowed 0.0 r.m.s. bonds (Å) 0.006 r.m.s. angles (^(°)) 1.2 Average B values (Å²) 35.2 NB: R_(merge) = ΣI Ii − <Ii> I/Σ <Ii>, where Ii is the observed intensity and <Ii> is the average intensity over symmetry equivalent measurements. Phasing power = Σ|F_(H)I/Σ||F_(PH)(obs)I − IF_(PH)(calc)I I, where F_(PH) and F_(H) are the derivative and calculated heavy-atom structure factors, respectively. R_(cullis) = Σ||F_(PH) − F_(P)I − IF_(H)(calc)I/IF_(PH) − F_(P)I, where F_(PH), F_(P) and F_(H) are the derivative, native and calculated heavy-atom structure factors, respectively. R_(factor) = Σ|F_(obs)I − IF_(calc)||/Σ|F_(obs)I. R_(free) is the same as R_(factor), but for a 5% subset of all reflections that were never used in crystallographic refinement. FOM (Figure of merit) = IF(hkl)bestI/IF(hkl)I Completeness is reported for all reflection and for the highest resolution shell. Diffraction and Structure Solving

Native and derivative diffraction data were collected in house. Additional native data (at 1.6 Å resolution) were collected on beamline ID14 (ESRF, Grenoble, France), on a MAR CCD detector. All data were processed using DENZO and SCALEPACK [36] and merged using the CCP4 program suite [37]. Crystallographic phases were calculated with CCP4 programs and refined using SHARP [38] and SOLOMON [39]. The resulting electron density maps allowed about 80% of the two independent molecules to be traced. Model building and inspection was based on the O suite [40]. The structure was refined using CNS [41] and REFMAC [42]. 5% of the unique data were used to monitor the free R-factor. The final values for general R-factor and free R-factor are 18.7% and 23.8%, respectively. The refined model consists of 176 amino acids, with 194 water molecules, at 1.60 Å resolution. No residues are found in disallowed regions of the Ramachandran plot. Residues 238–241 are disordered in a A′B′loop.

Analysis of the Crystal Structure

FIG. 1A shows the CD81-LEL tertiary structure, which is essentially composed of five α-helices (A, B, C, D, E) spanning residues Asn115-Asp137, Ala140-Asp155, Leu165-Asn172, Asn180-Phe186 and Asp189-Gly200, respectively (amino acids numbered according to the full CD81 sequence; refs 43 & 44). A short 3₁₀ helical segment covers residues Leu162-Ala164. The anti-parallel A- and E-helices can be seen as the stalk of a mushroom-shaped molecule, whose head domain (about 60 residues) is built by packing of the shorter B-, C- and D-helices and their intervening loops (loops are defined by the helices they connect i.e. AB, . . . , DE). A DALI search [45] of 3D protein structures did not show significant structural homology of the CD81-LEL fold to any known protein tertiary structure.

The dimeric assembly observed in the crystallographic asymmetric unit is shown in FIG. 1B. Two CD81-LEL chains assemble around a local two-fold axis, displaying intermolecular contacts mainly at the A:A′ helix interface (a ′ symbol distinguishes features of the partner subunit) and along the B-helix, which is in contact with the C-terminal region of the facing protomer. The subunit interface (986 Å²) is composed of a polar residues for about 70% of its contact region.

The A:A′ interface segment involves primarily residues Val114, Ile119, Val123, Gln125, Phe126 and Gln129, in both antiparallel helices, together with solvent mediated interactions between exposed polar side chains at the rim of the contact region. The second interface region includes residues Asn142, Val146, Thr149, Phe150, Thr153 & Leu154 which contact Leu197′, Phe198′, Ser199′ & Gly200′. No water molecules are buried at the association interface.

Bivalent molecules (such as specific antibodies) capable of recognising human CD81 have been reported to have a higher affinity than E2 for CD81 [46]. In agreement with the crystal structure, this suggests that CD81 exists as a bomodimeric species at the cell surface. In the crystal structure, the distance between the D- and D′-helices is about 30 Å, close to the distance between antigen-binding sites in an assembled antibody molecule.

The C-terminal His-tag does not appear to have a structural influence because the proximity of N- and C-termini within each chain, permitted by the antiparallel arrangement of A- and E-helices, is compatible with their topological location between TM3 and TM4 of native CD81 [44]. Moreover, due to the quaternary structure two-fold symmetry, the N- and C-termini of the two protomers fall in a restricted area, but on opposite faces of the assembled dimer (FIG. 1B). This quaternary organization is compatible with inter- and intra-cellular aggregation of CD81 in homo-dimeric species, through the association interface described.

The overall shape of the CD81-LEL dimer is further characterized in FIG. 1C, as a surface displaying electrostatic potential. Besides the localization of negative potential in the central region of the dimer, a low polarity patch is present in a surface region comprising the C- and D-helices. In the crystal packing this region is virtually solvent inaccessible, due to extended contacts with a symmetry equivalent dimer.

The CD81-LEL head domain is essentially composed of the last two turns of the A-helix, the B-, C-, D-helices, the intervening segments, and the DE loop. The domain fold is firstly stabilized by two tetraspanin-invariant intramolecular disulfide bridges [35, 43, 44, 46], which originate from two adjacent Cys residues (156 & 157) and are oriented approximately in opposite directions within the head domain (FIG. 3A). Their topological connections are Cys156-Cys190 and Cys157-Cys175: the first involves residues located at the C-terminus of the B-helix (Cys156) and at the N-terminus of the B-helix (Cys190); the second connects the BC segment (Cys157) with the CD loop region (Cys175). The latter region is fully exposed to solvent and specifically kinked towards the head domain core by virtue of the Cys157-Cys175 bridge. Of the four Cys residues, only Cys175 is partly accessible to solvent (20 Å²).

The head domain is built around the core residue Tyr127, fully buried and surrounded by Leu131, Val47, Phe150, His151 and by the Asp128-His191 hydrogen-bonded salt-bridge. Tyr127 OH atom is hydrogen-bonded to His151 NE2 atom (2.71 Å) and is 3.61 Å from the Cys190 Sγ atom (FIG. 3B). The imidazole ring of His151 is nestled between the two disulfide bridges, and is at hydrogen-bonding distance from Cys190 Sγ (3.56 Å). A hydrogen-bonding network involving Tyr127, His151 and Cys190 may play a role in regulating the redox properties of one or both disulfide bridges. Tyr127 is strictly conserved between species in CD81 (FIG. 2), and in all the CD9 sequences known to date; residue 191 is either His or Gln in amino acid sequences representing different tetraspanin sub-families (FIG. 2).

Sequence database surveys show that the tetraspanin family is composed of several sub-families (CD9, CD37, CD63, CD53, CD82, CD151 and others; ref. 43), for a total of about 160 amino acid sequences currently recognized. Among these, CD81 and CD9 families display close sequence (and thus structural) homology (23% residue identities are observed between human CD81-LEL and human CD9-LEL). FIG. 2 shows multiple amino acid sequence alignments of CD81-LEL from seven different species, together with human CD9-LEL and other tetraspanins. Sequence-based dendrogram analysis indicates that, within the sequences included in FIG. 2, human CD82-LEL is the one most distantly related to CD81-LEL (only 9% identical residues).

Besides the clearly recognized tetraspanin four-Cys consensus motif, inspection of the CD81 and CD9 alignment in FIG. 2 shows strict residue conservation at thirteen residues. Among these, four are charged amino acids (Lys116, Asp117, Lys148, and Lys201), which are totally solvent exposed in the assembled CD81-LEL dimer. The remaining nine conserved residues can be divided into three structural classes:

-   -   (a) Tyr127, His151 and Ile194 are buried residues involved in         intramolecular interactions stabilizing the head domain and its         contacts to the E-helix, as described above.     -   (b) Val123, Phe126, Leu154 and Phe198, which are primarily         involved in subunit interface contacts, together with residues         Ile119 and Phe150, conservatively substituted at the association         interface. Conservation of the interface hydrophobic residues         can be recognized throughout the sequence alignment of FIG. 2,         suggesting that the observed subunit interface has a general         functional significance for both homo- or hetero-dimeric         tetraspanin association related to intra- or inter-cellular         recognition processes.     -   (c) Gly158 and Pro176, both of which display unique positions         and conformations (as indicated by their Ramachandran Φ, ψ         pairs) within the head domain fold, occurring after the         Cys156-Cys157 pair and after Cys175. The selection of Gly and         Pro at sites 158 and 176, respectively, may be required by the         structural constraints imposed on the CD loop by the         Cys157-Cys175 bridge, coding its specific kink towards the         B-helix.

Analysis of the available sequences indicates that tetraspanin LEL segments display enhanced residue variability, deletions or insertions in the protein segments 158–174 and 176–189, which are comprised between the two disulfide bridges (see FIG. 2). The two segments span the BC loop, the C- and the D-helices and the DE hinge i.e. mostly solvent-exposed regions of the head domain (see FIGS. 1B & 3A). The structural location and sequence variability of this protein region, as opposed to generally conserved protein interface and core regions, suggests its involvement in species- or tetraspanin-specific recognition processes.

No binding of the HCV E2 glycoprotein to african green monkey (Chlorocebus aethiops) CD81 has been observed, but the LELs of human and AGM CD81 differ at only five residues: 154, 163, 186, 188 and 197 [35]. Conversely, E2 does bind to tamarin (Saguinus oedipus) CD81 with high affinity, and it differs from human CD81 only at residues 155, 163, 169, 180 and 196. Three of the AGM mutations have been engineered into human CD81-LEL ad their binding properties versus recombinant E2 and anti-CD81 antibodies have been analysed in vitro [46]. Phe186 is the most critical residue affecting E2 binding, since the F186A mutation in human CD81-LEL fully impairs binding to E2 and to specific antibodies, the introduction of Phe186 in AGM CD81-LEL restores E2 binding, and tamarin CD81 displays Phe186 [35, 46, 47]. The Thr163Ala mutation marginally improves human CD81 binding to E2, whereas Asp196Glu mutation decreases binding to E2 [46].

From a structural viewpoint, the tamarin and AGM mutated residues map in the head domain, with the exception of residues 196 and 197, which fall next to the C-terminus (see FIG. 3C), Leu197 being a subunit interface residue in human CD81. Residues 155, 163, 180, 186 and 188 are solvent exposed, such that their conservative substitution should not affect the domain conformation. On the other hand, the substitution of residues 154 and 169 is subject to polarity and residue size restrictions, since they occur at buried locations next to both disulfide bridges. In human CD81 Thr163 is located in the short 3₁₀ segment preceding the C-helix, and Phe186 is the last residue in the D-helix. The two antiparallel helices build up a sort of narrow “canyon” sub-structure, whose floor is essentially defined by the Cys157-Cys175 disulfide connecting the CD loop to the domain core. Residues 163 and 186 are located at the canyon end opposing the CD loop (FIGS. 3A & 3C).

The mutant AGM and tamarin residues which affect E2 binding map to the C-, D-, E-helices, and the intervening segments i.e. residues mostly comprised within the two conserved disulfide bridges and including the 179–193 sequence stretch recognised as the minimal epitope for E2 binding [46]. Conformational integrity of this region is likely related to the oxidised state of the disulfide bridges, particularly the Cys157-Cys175 bridge; reduction of the disulfides impairs E2 and antibody recognition experiments [46, 48]. Sequence alignments show that the identified region displays highest residue variability within the CD81-LEL subfamily (FIG. 2), but also within other members of the tetraspanin family, which may bear specific residue deletions and insertions affecting the tertiary structure according to their molecular recognition requirements.

The conservation in the CD81 sequences of the hydrophobic residues Ile181, Ile182, Leu185, and Phe186 belonging to the D-helix (FIG. 2) is peculiar, since their solvent-exposed location (FIGS. 1C & 3A) should select against their conservation through species. Such an uncommon structural property, the extended intermolecular crystal contacts observed in this region, and the dramatic loss of E2 affinity related to Phe186 mutation, suggest that the D-helix region is the docking site for the viral glycoprotein E2.

Tetraspanin Dimers

Tetraspanins play a role in the lateral association of large cell-surface signalling complexes, but very little is known about how the tetraspanins interact to build up the so-called “tetraspan web”. To investigate this, the LEL of CD81 was co-expressed in E. coli with the LELs from two other tetraspanins (CD82 and CD63) in an attempt to form heterodimers.

CD82-LEL and CD63-LEL were cloned in the expression vector pEZZ18 in the same way as described in reference 31. After PCR amplification, CD82-LEL was cloned into restriction sites EcoRI and HindIII, while CD63-LEL was cloned into SacI and HindIII. The resulting plasmids encode for fusion proteins having S. aureus Protein A at their N-terminus and a stretch of six histidine residues at the C-terminus. Between Protein A and LEL domains there is a thrombin cleavage site. The plasmid constructs were then transformed into E. coli DB1035 cells.

The fragment containing the Shine-Dalgarno sequence followed by the sequence encoding the Protein A-CD82-LEL-(His)₆ was amplified from pEZZ CD82 and cloned in the plasmid pEZZ CD81 at the HindIII restriction site. The resulting plasmid pEZZ CD81-CD82 was transformed into E. coli DB1035 cells. The same procedure was used to generate plasmid pEZZ CD81-CD63.

E. coli DB1035 containing plasmid pEZZ CD81-CD82 and E. coli DB1035 containing plasmid pEZZ CD81-CD63 were grown in LB broth containing ampicillin (100 μg/ml) at 37° C. for 16 hours and the cells were harvested by centrifugation and used to purify the recombinant proteins.

The co-expressed fusion proteins were purified using IgG Sepharose followed by thrombin digestion. The LEL-(His)₆ fragments were further purified using IMAC.

Co-purified CD81/CD82 LEL (150 ng) and CD81/CD63 LEL (50 ng) proteins were immunoprecipitated in a total volume of 0.1 ml for 2 hours at 4° C. under constant agitation in PBS, 0.1% Triton X-100, 0.3 mg/ml monoclonal antibodies against CD81, CD82 or CD63. To collect the immune complexes one third volume Protein G Sepharose (Amersham) was added and after 1 hour at 4° C. the resin was pelleted and washed two times with PBS, 0.1% Triton X-100. Co-precipitated molecules were eluted from immune complexes by incubation with 2×SDS gel-loading buffer (without reducing agents) at room temperature for 1 hour.

Immunoprecipitated molecules were separated by SDS-PAGE in non-reducing conditions. The proteins were then transferred to a PVDF membrane and the membrane was blocked overnight in PBS 0.05% Tween-20 10% non-fat dry milk. Blots were developed by incubation with specific mouse anti-CD81, anti-CD82 or anti-CD63 antibodies followed by incubation with peroxidase-conjugated anti-mouse IgG. Immunoreactive bands were visualised using the ECL Western blotting detection kit (Amersham).

FIG. 4 shows that CD81-LEL and CD82-LEL associate. In FIG. 4A the blot was visualised with anti-CD81; in FIG. 4B anti-CD82 was used. The antibody used to immunoprecipitate proteins was either anti-CD81 (lane b) or anti-CD82 (lane c). It can be seen that the protein which is immunoprecipitated by anti-CD81 is recognised by both anti-CD81 and anti-CD82; similarly, the protein which is immunoprecipitated by anti-CD82 is recognised by both anti-CD82 and anti-CD81. Proteins not subjected to immunoprecipitation (lane a) or not stained with antibody (lane d) do not show either protein.

FIG. 5 shows similar results—the protein which is immunoprecipitated by anti-CD81 (lane b) is recognised by both anti-CD81 (FIG. 5A) and anti-CD63 (FIG. 5B); and the protein which is immunoprecipitated by anti-CD63 (lane c) is recognised by both anti-CD63 and anti-CD81.

It is thus evident that CD81 can form dimers with both CD63 and CD82, as well as with itself.

It will be understood that the invention has been described by way of example only and modifications may be made whilst remaining within the scope and spirit of the invention.

REFERENCES (the contents of which are hereby incorporated in full herein)

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PDB FILE LISTING - cd811e1.pdb REMARK Written by O version 7.0.0 REMARK Mon Jun 26 07:13:19 2000 CRYST1 31.485 77.172 38.462 90.00 107.39 90.00 ORIGX1 1.000000 0.000000 0.000000 0.00000 ORIGX2 0.000000 1.000000 0.000000 0.00000 ORIGX3 0.000000 0.000000 1.000000 0.00000 SCALE1 0.031761 −0.000001 0.009946 0.00000 SCALE2 0.000000 0.012958 0.000000 0.00000 SCALE3 0.000000 0.000000 0.027245 0.00000 ATOM 1 CB PHE A 113 13.054 44.460 −4.086 1.00 35.22 6 ATOM 2 CG PHE A 113 13.550 44.904 −5.447 1.00 34.10 6 ATOM 3 CD1 PHE A 113 13.436 46.217 −5.867 1.00 33.03 6 ATOM 4 CD2 PHE A 113 14.097 43.957 −6.288 1.00 31.53 6 ATOM 5 CE1 PHE A 113 13.846 46.604 −7.112 1.00 41.68 6 ATOM 6 CE2 PHE A 113 14.536 44.353 −7.552 1.00 33.43 6 ATOM 7 CZ PHE A 113 14.417 45.655 −7.929 1.00 29.35 6 ATOM 8 C PHE A 113 13.055 44.591 −1.648 1.00 34.73 6 ATOM 9 O PHE A 113 13.493 43.601 −1.095 1.00 35.94 8 ATOM 10 N PHE A 113 15.194 44.738 −2.818 1.00 38.93 7 ATOM 11 CA PHE A 113 13.749 45.121 −2.929 1.00 35.51 6 ATOM 12 N VAL A 114 12.014 45.304 −1.292 1.00 30.69 7 ATOM 13 CA VAL A 114 11.297 44.908 −0.047 1.00 30.59 6 ATOM 14 CB VAL A 114 10.318 46.078 0.218 1.00 28.83 6 ATOM 15 CG1 VAL A 114 9.273 45.698 1.249 1.00 39.07 6 ATOM 16 CG2 VAL A 114 11.101 47.339 0.495 1.00 32.04 6 ATOM 17 C VAL A 114 10.519 43.644 −0.291 1.00 33 .72 6 ATOM 18 O VAL A 114 9.766 43.438 −1.254 1.00 38.10 8 ATOM 19 N ASN A 115 10.631 42.726 0.661 1.00 26.02 7 ATOM 20 CA ASN A 115 9.999 41.431 0.616 1.00 26.31 6 ATOM 21 CB ASN A 115 11.119 40.392 0.761 1.00 32.36 6 ATOM 22 CG ASN A 115 10.695 38.985 0.416 1.00 36.81 6 ATOM 23 OD1 ASN A 115 9.539 38.606 0.608 1.00 37.44 8 ATOM 24 ND2 ASN A 115 11.665 38.213 −0.109 1.00 41.24 7 ATOM 25 C ASN A 115 9.050 41.307 1.840 1.00 29.28 6 ATOM 26 O ASN A 115 9.588 40.946 2.886 1.00 29.32 8 ATOM 27 N LYS A 116 7.818 41.715 1.661 1.00 28.31 7 ATOM 28 CA LYS A 116 6.877 41.671 2.790 1.00 30.52 6 ATOM 29 CB LYS A 116 5.534 42.201 2.323 1.00 32.42 6 ATOM 30 CG LYS A 116 4.438 42.302 3.360 1.00 40.71 6 ATOM 31 CD LYS A 116 3.494 41.125 3.184 1.00 54.74 6 ATOM 32 CE LYS A 116 2.097 41.504 3.656 1.00 50.77 6 ATOM 33 NZ LYS A 116 1.233 40.305 3.663 1.00 45.99 7 ATOM 34 C LYS A 116 6.740 40.325 3.467 1.00 29.54 6 ATOM 35 O LYS A 116 6.720 40.232 4.696 1.00 27.76 8 ATOM 36 N ASP A 117 6.611 39.248 2.695 1.00 29.77 7 ATOM 37 CA ASP A 117 6.551 37.911 3.304 1.00 30.69 6 ATOM 38 CB ASP A 117 6.396 36.802 2.261 1.00 35.31 6 ATOM 39 CG ASP A 117 5.055 36.833 1.558 1.00 41.21 6 ATOM 40 OD1 ASP A 117 4.955 36.192 0.472 1.00 44.39 8 ATOM 41 OD2 ASP A 117 4.140 37.496 2.092 1.00 44.63 8 ATOM 42 C ASP A 117 7.800 37.628 4.109 1.00 31.27 6 ATOM 43 O ASP A 117 7.612 37.076 5.208 1.00 29.68 8 ATOM 44 N GLN A 118 9.006 37.962 3.675 1.00 27.32 7 ATOM 45 CA GLN A 118 10.192 37.645 4.471 1.00 23.79 6 ATOM 46 CB GLN A 118 11.500 37.816 3.709 1.00 33.42 6 ATOM 47 CG GLN A 118 12.392 36.592 3.917 1.00 50.37 6 ATOM 48 CD GLN A 118 11.870 35.402 3.136 1.00 55.11 6 ATOM 49 OE1 GLN A 118 11.385 34.436 3.730 1.00 61.81 8 ATOM 50 NE2 GLN A 118 11.933 35.435 1.806 1.00 55.23 7 ATOM 51 C GLN A 118 10.218 38.513 5.755 1.00 25.07 6 ATOM 52 O GLN A 118 10.575 38.027 6.842 1.00 28.38 8 ATOM 53 N ILE A 119 9.863 39.760 5.566 1.00 25.14 7 ATOM 54 CA ILE A 119 9.880 40.701 6.719 1.00 23.26 6 ATOM 55 CB ILE A 119 9.498 42.128 6.266 1.00 27.36 6 ATOM 56 CG2 ILE A 119 9.266 43.023 7.510 1.00 23.47 6 ATOM 57 CG1 ILE A 119 10.560 42.718 5.345 1.00 30.01 6 ATOM 58 CD1 ILE A 119 10.193 44.009 4.618 1.00 30.66 6 ATOM 59 C ILE A 119 8.938 40.184 7.788 1.00 23.31 6 ATOM 60 O ILE A 119 9.311 40.183 8.996 1.00 25.16 8 ATOM 61 N ALA A 120 7.712 39.788 7.412 1.00 24.17 7 ATOM 62 CA ALA A 120 6.781 39.316 8.463 1.00 25.04 6 ATOM 63 CB ALA A 120 5.384 38.976 7.916 1.00 29.48 6 ATOM 64 C ALA A 120 7.304 38.051 9.147 1.00 24.84 6 ATOM 65 O ALA A 120 7.234 37.964 10.377 1.00 25.63 8 ATOM 66 N LYS A 121 7.886 37.145 8.333 1.00 25.80 7 ATOM 67 CA LYS A 121 8.459 35.934 8.924 1.00 27.45 6 ATOM 68 CB LYS A 121 8.937 35.072 7.739 1.00 31.96 6 ATOM 69 CG LYS A 121 10.222 34.305 7.934 1.00 45.25 6 ATOM 70 CD LYS A 121 11.443 35.174 7.733 1.00 55.59 6 ATOM 71 CE LYS A 121 12.488 34.542 6.833 1.00 54.95 6 ATOM 72 NZ LYS A 121 13.434 35.534 6.259 1.00 49.41 7 ATOM 73 C LYS A 121 9.581 36.310 9.886 1.00 24.12 6 ATOM 74 O LYS A 121 9.630 35.792 11.038 1.00 26.90 8 ATOM 75 N ASP A 122 10.378 37.296 9.562 1.00 23.49 7 ATOM 76 CA ASP A 122 11.489 37.734 10.391 1.00 24.47 6 ATOM 77 CB ASP A 122 12.549 38.580 9.737 1.00 22.87 6 ATOM 78 CG ASP A 122 13.362 37.819 8.674 1.00 26.68 6 ATOM 79 OD1 ASP A 122 13.273 36.574 8.574 1.00 32.55 8 ATOM 80 OD2 ASP A 122 14.103 38.528 7.955 1.00 31.33 8 ATOM 81 C ASP A 122 10.982 38.456 11.665 1.00 24.38 6 ATOM 82 O ASP A 122 11.555 38.251 12.733 1.00 22.88 8 ATOM 83 N VAL A 123 9.945 39.256 11.552 1.00 24.91 7 ATOM 84 CA VAL A 123 9.363 39.886 12.747 1.00 22.20 6 ATOM 85 CB VAL A 123 8.288 40.939 12.399 1.00 18.76 6 ATOM 86 CG1 VAL A 123 7.800 41.562 13.705 1.00 20.06 6 ATOM 87 CG2 VAL A 123 9.037 42.026 11.568 1.00 23.40 6 ATOM 88 C VAL A 123 8.825 38.829 13.692 1.00 20.54 6 ATOM 89 O VAL A 123 9.008 38.889 14.911 1.00 22.54 8 ATOM 90 N LYS A 124 8.098 37.844 13.114 1.00 21.95 7 ATOM 91 CA LYS A 124 7.566 36.768 14.018 1.00 24.00 6 ATOM 92 CB LYS A 124 6.797 35.783 13.134 1.00 26.02 6 ATOM 93 CG LYS A 124 5.505 36.413 12.619 1.00 25.26 6 ATOM 94 CD LYS A 124 4.836 35.414 11.667 1.00 29.55 6 ATOM 95 CE LYS A 124 3.735 36.131 10.886 1.00 32.92 6 ATOM 96 NZ LYS A 124 3.115 35.139 9.941 1.00 31.45 7 ATOM 97 C LYS A 124 8.722 36.046 14.715 1.00 25.01 6 ATOM 98 O LYS A 124 8.678 35.783 15.931 1.00 24.77 8 ATOM 99 N GLN A 125 9.817 35.779 14.045 1.00 22.22 7 ATOM 100 CA GLN A 125 10.963 35.105 14.630 1.00 25.09 6 ATOM 101 CB GLN A 125 11.933 34.615 13.553 1.00 28.89 6 ATOM 102 CG GLN A 125 13.031 33.781 14.176 1.00 28.74 6 ATOM 103 CD GLN A 125 12.610 32.683 15.121 1.00 51.08 6 ATOM 104 OE1 GLN A 125 11.475 32.201 15.227 1.00 48.79 8 ATOM 105 NE2 GLN A 125 13.577 32.195 15.910 1.00 55.92 7 ATOM 106 C GLN A 125 11.677 35.939 15.667 1.00 22.42 6 ATOM 107 O GLN A 125 12.007 35.481 16.740 1.00 26.28 8 ATOM 108 N PHE A 126 11.872 37.249 15.396 1.00 21.19 7 ATOM 109 CA PHE A 126 12.395 38.149 16.407 1.00 23.84 6 ATOM 110 CB PHE A 126 12.358 39.571 15.868 1.00 20.40 6 ATOM 111 CG PHE A 126 12.978 40.587 16.762 1.00 22.25 6 ATOM 112 CD1 PHE A 126 14.372 40.659 16.802 1.00 24.92 6 ATOM 113 CD2 PHE A 126 12.201 41.422 17.567 1.00 24.93 6 ATOM 114 CE1 PHE A 126 14.990 41.588 17.628 1.00 28.09 6 ATOM 115 CE2 PHE A 126 12.844 42.353 18.368 1.00 21.69 6 ATOM 116 CZ PHE A 126 14.202 42.409 18.427 1.00 27.78 6 ATOM 117 C PHE A 126 11.592 38.131 17.688 1.00 21.94 6 ATOM 118 O PHE A 126 12.060 38.065 18.810 1.00 22.84 8 ATOM 119 N TYR A 127 10.246 38.180 17.534 1.00 19.86 7 ATOM 120 CA TYR A 127 9.349 38.135 18.698 1.00 20.03 6 ATOM 121 CB TYR A 127 7.865 38.224 18.184 1.00 23.84 6 ATOM 122 CG TYR A 127 6.918 37.987 19.351 1.00 21.94 6 ATOM 123 CD1 TYR A 127 6.577 38.925 20.305 1.00 21.20 6 ATOM 124 CE1 TYR A 127 5.735 38.634 21.368 1.00 17.80 6 ATOM 125 CD2 TYR A 127 6.394 36.687 19.461 1.00 21.35 6 ATOM 126 CE2 TYR A 127 5.542 36.351 20.521 1.00 23.38 6 ATOM 127 CZ TYR A 127 5.221 37.318 21.444 1.00 22.17 6 ATOM 128 OH TYR A 127 4.376 36.942 22.471 1.00 22.46 8 ATOM 129 C TYR A 127 9.552 36.818 19.437 1.00 18.72 6 ATOM 130 O TYR A 127 9.655 36.851 20.694 1.00 21.79 8 ATOM 131 N ASP A 128 9.606 35.711 18.693 1.00 23.27 7 ATOM 132 CA ASP A 128 9.726 34.407 19.418 1.00 22.55 6 ATOM 133 CB ASP A 128 9.674 33.283 18.359 1.00 25.98 6 ATOM 134 CG ASP A 128 8.249 33.014 17.910 1.00 29.92 6 ATOM 135 OD1 ASP A 128 8.110 32.180 16.988 1.00 32.49 8 ATOM 136 OD2 ASP A 128 7.294 33.586 18.464 1.00 27.69 8 ATOM 137 C ASP A 128 11.093 34.278 20.077 1.00 24.19 6 ATOM 138 O ASP A 128 11.158 33.755 21.208 1.00 22.87 8 ATOM 139 N GLN A 129 12.140 34.817 19.447 1.00 22.82 7 ATOM 140 CA GLN A 129 13.441 34.812 20.158 1.00 22.77 6 ATOM 141 CB GLN A 129 14.505 35.588 19.324 1.00 25.03 6 ATOM 142 CG GLN A 129 14.771 34.862 18.042 1.00 25.57 6 ATOM 143 CD GLN A 129 15.665 35.668 17.072 1.00 26.40 6 ATOM 144 OE1 GLN A 129 15.978 35.087 16.038 1.00 30.69 8 ATOM 145 NE2 GLN A 129 15.991 36.913 17.459 1.00 30.93 7 ATOM 146 C GLN A 129 13.299 35.632 21.434 1.00 22.40 6 ATOM 147 O GLN A 129 13.819 35.202 22.487 1.00 25.02 8 ATOM 148 N ALA A 130 12.695 36.829 21.395 1.00 20.16 7 ATOM 149 CA ALA A 130 12.602 37.564 22.647 1.00 19.19 6 ATOM 150 CB ALA A 130 12.049 39.003 22.397 1.00 21.18 6 ATOM 151 C ALA A 130 11.791 36.880 23.687 1.00 22.54 6 ATOM 152 O ALA A 130 12.047 36.945 24.912 1.00 22.88 8 ATOM 153 N LEU A 131 10.655 36.253 23.276 1.00 18.79 7 ATOM 154 CA LEU A 131 9.742 35.645 24.266 1.00 21.57 6 ATOM 155 CB LEU A 131 8.492 35.127 23.523 1.00 21.87 6 ATOM 156 CG LEU A 131 7.340 34.780 24.516 1.00 26.58 6 ATOM 157 CD1 LEU A 131 6.825 36.097 25.128 1.00 24.19 6 ATOM 158 CD2 LEU A 131 6.209 34.116 23.747 1.00 23.85 6 ATOM 159 C LEU A 131 10.454 34.451 24.948 1.00 21.60 6 ATOM 160 O LEU A 131 10.320 34.274 26.150 1.00 22.16 8 ATOM 161 N GLN A 132 11.181 33.692 24.137 1.00 22.17 7 ATOM 162 CA GLN A 132 11.884 32.531 24.707 1.00 23.12 6 ATOM 163 CB GLN A 132 12.508 31.669 23.581 1.00 22.76 6 ATOM 164 CG GLN A 132 11.381 30.963 22.796 1.00 24.05 6 ATOM 165 CD GLN A 132 11.961 30.193 21.606 1.00 25.65 6 ATOM 166 OE1 GLN A 132 11.936 28.946 21.582 1.00 28.29 8 ATOM 167 NE2 GLN A 132 12.428 30.852 20.541 1.00 25.24 7 ATOM 168 C GLN A 132 12.922 32.987 25.692 1.00 22.26 6 ATOM 169 O GLN A 132 13.006 32.389 26.770 1.00 23.25 8 ATOM 170 N GLN A 133 13.693 34.050 25.412 1.00 21.14 7 ATOM 171 CA GLN A 133 14.711 34.509 26.348 1.00 21.05 6 ATOM 172 CB GLN A 133 15.533 35.610 25.619 1.00 22.48 6 ATOM 173 CG GLN A 133 16.687 35.994 26.548 1.00 25.57 6 ATOM 174 CD GLN A 133 17.650 36.993 25.926 1.00 23.61 6 ATOM 175 OE1 GLN A 133 17.463 37.432 24.806 1.00 28.80 8 ATOM 176 NE2 GLN A 133 18.726 37.251 26.669 1.00 29.55 7 ATOM 177 C GLN A 133 14.070 35.146 27.572 1.00 22.02 6 ATOM 178 O GLN A 133 14.481 34.985 28.734 1.00 24.53 8 ATOM 179 N ALA A 134 12.946 35.879 27.368 1.00 22.25 7 ATOM 180 CA ALA A 134 12.270 36.531 28.489 1.00 24.32 6 ATOM 181 CB ALA A 134 11.058 37.332 27.987 1.00 24.55 6 ATOM 182 C ALA A 134 11.798 35.628 29.623 1.00 23.77 6 ATOM 183 O ALA A 134 11.708 35.947 30.819 1.00 27.92 8 ATOM 184 N VAL A 135 11.447 34.399 29.250 1.00 22.81 7 ATOM 185 CA VAL A 135 10.918 33.425 30.203 1.00 22.24 6 ATOM 186 CB VAL A 135 9.948 32.446 29.546 1.00 31.11 6 ATOM 187 CG1 VAL A 135 8.682 33.122 29.084 1.00 29.66 6 ATOM 188 CG2 VAL A 135 10.546 31.496 28.557 1.00 45.64 6 ATOM 189 C VAL A 135 12.043 32.676 30.843 1.00 25.73 6 ATOM 190 O VAL A 135 11.880 32.216 31.986 1.00 31.63 8 ATOM 191 N VAL A 136 13.147 32.472 30.135 1.00 30.36 7 ATOM 192 CA VAL A 136 14.211 31.649 30.768 1.00 29.23 6 ATOM 193 CB VAL A 136 14.704 30.717 29.663 1.00 30.54 6 ATOM 194 CG1 VAL A 136 15.653 31.427 28.727 1.00 28.12 6 ATOM 195 CG2 VAL A 136 15.237 29.401 30.184 1.00 33.07 6 ATOM 196 C VAL A 136 15.274 32.433 31.445 1.00 32.01 6 ATOM 197 O VAL A 136 16.080 31.921 32.242 1.00 35.58 8 ATOM 198 N ASP A 137 15.520 33.683 31.050 1.00 29.34 7 ATOM 199 CA ASP A 137 16.647 34.496 31.487 1.00 30.00 6 ATOM 200 CB ASP A 137 17.273 35.171 30.263 1.00 31.01 6 ATOM 201 CG ASP A 137 18.536 35.952 30.547 1.00 38.12 6 ATOM 202 OD1 ASP A 137 19.181 36.426 29.580 1.00 33.65 8 ATOM 203 OD2 ASP A 137 18.933 36.171 31.710 1.00 34.77 8 ATOM 204 C ASP A 137 16.127 35.551 32.450 1.00 35.73 6 ATOM 205 O ASP A 137 15.411 36.471 32.043 1.00 35.33 8 ATOM 206 N ASP A 138 16.486 35.444 33.718 1.00 41.35 7 ATOM 207 CA ASP A 138 16.026 36.345 34.735 1.00 44.53 6 ATOM 208 CB ASP A 138 16.349 35.881 36.159 1.00 55.88 6 ATOM 209 CG ASP A 138 14.551 35.422 36.525 0.00 27.18 6 ATOM 210 OD1 ASP A 138 14.174 34.275 36.165 0.00 27.18 8 ATOM 211 OD2 ASP A 138 13.773 36.235 37.082 0.00 27.18 8 ATOM 212 C ASP A 138 16.457 37.783 34.550 1.00 45.63 6 ATOM 213 O ASP A 138 15.642 38.619 34.905 1.00 46.37 8 ATOM 214 N ASP A 139 17.659 38.047 34.046 1.00 47.04 7 ATOM 215 CA ASP A 139 18.045 39.434 33.860 1.00 47.12 6 ATOM 216 CB ASP A 139 19.315 39.889 34.534 1.00 59.30 6 ATOM 217 CG ASP A 139 20.138 38.776 35.141 1.00 60.21 6 ATOM 218 OD1 ASP A 139 20.667 37.956 34.371 1.00 66.48 8 ATOM 219 OD2 ASP A 139 20.245 38.739 36.381 1.00 60.42 8 ATOM 220 C ASP A 139 17.980 39.852 32.397 1.00 44.11 6 ATOM 221 O ASP A 139 18.684 40.814 32.054 1.00 45.91 8 ATOM 222 N ALA A 140 17.165 39.159 31.588 1.00 36.40 7 ATOM 223 CA ALA A 140 17.097 39.640 30.176 1.00 34.34 6 ATOM 224 CB ALA A 140 16.549 38.514 29.305 1.00 29.85 6 ATOM 225 C ALA A 140 16.124 40.801 30.144 1.00 29.56 6 ATOM 226 O ALA A 140 14.956 40.665 29.725 1.00 28.22 8 ATOM 227 N ASN A 141 16.528 41.977 30.625 1.00 29.81 7 ATOM 228 CA ASN A 141 15.623 43.101 30.725 1.00 30.52 6 ATOM 229 CB ASN A 141 16.336 44.264 31.435 1.00 37.01 6 ATOM 230 CG ASN A 141 16.696 43.864 32.857 1.00 54.30 6 ATOM 231 OD1 ASN A 141 15.795 43.768 33.690 1.00 48.05 8 ATOM 232 ND2 ASN A 141 17.991 43.645 33.062 1.00 56.03 7 ATOM 233 C ASN A 141 15.225 43.622 29.319 1.00 25.07 6 ATOM 234 O ASN A 141 14.036 43.975 29.220 1.00 30.82 8 ATOM 235 N ASN A 142 16.189 43.580 28.407 1.00 32.80 7 ATOM 236 CA ASN A 142 15.802 44.039 27.068 1.00 27.52 6 ATOM 237 CB ASN A 142 16.955 44.259 26.125 1.00 32.75 6 ATOM 238 CG ASN A 142 17.649 45.601 26.305 1.00 52.93 6 ATOM 239 OD1 ASN A 142 18.857 45.697 26.058 1.00 59.14 8 ATOM 240 ND2 ASN A 142 16.922 46.626 26.735 1.00 57.80 7 ATOM 241 C ASN A 142 14.791 43.064 26.464 1.00 25.36 6 ATOM 242 O ASN A 142 13.788 43.551 25.878 1.00 26.29 8 ATOM 243 N ALA A 143 15.035 41.759 26.593 1.00 23.53 7 ATOM 244 CA ALA A 143 14.041 40.835 26.012 1.00 25.47 6 ATOM 245 CB ALA A 143 14.443 39.375 26.206 1.00 22.30 6 ATOM 246 C ALA A 143 12.661 41.003 26.568 1.00 24.29 6 ATOM 247 O ALA A 143 11.612 40.989 25.897 1.00 22.58 8 ATOM 248 N LYS A 144 12.519 41.185 27.922 1.00 21.87 7 ATOM 249 CA LYS A 144 11.258 41.408 28.541 1.00 20.70 6 ATOM 250 CB LYS A 144 11.375 41.391 30.083 1.00 28.64 6 ATOM 251 CG LYS A 144 11.856 40.022 30.597 1.00 26.79 6 ATOM 252 CD LYS A 144 12.210 40.226 32.089 1.00 31.38 6 ATOM 253 CE LYS A 144 13.007 39.023 32.585 1.00 45.61 6 ATOM 254 NZ LYS A 144 12.035 37.945 32.966 1.00 43.86 7 ATOM 255 C LYS A 144 10.663 42.717 28.045 1.00 19.65 6 ATOM 256 O LYS A 144 9.472 42.704 27.782 1.00 24.45 8 ATOM 257 N ALA A 145 11.500 43.758 27.888 1.00 22.72 7 ATOM 258 CA ALA A 145 10.889 45.019 27.383 1.00 24.10 6 ATOM 259 CB ALA A 145 11.949 46.097 27.451 1.00 23.70 6 ATOM 260 C ALA A 145 10.430 44.868 25.914 1.00 21.09 6 ATOM 261 O ALA A 145 9.302 45.355 25.644 1.00 21.56 8 ATOM 262 N VAL A 146 11.171 44.078 25.189 1.00 22.29 7 ATOM 263 CA VAL A 146 10.683 43.855 23.784 1.00 20.84 6 ATOM 264 CB VAL A 146 11.731 43.079 22.976 1.00 22.15 6 ATOM 265 CG1 VAL A 146 11.112 42.478 21.711 1.00 23.27 6 ATOM 266 CG2 VAL A 146 12.898 44.014 22.734 1.00 22.16 6 ATOM 267 C VAL A 146 9.361 43.149 23.742 1.00 19.58 6 ATOM 268 O VAL A 146 8.394 43.563 23.088 1.00 21.79 8 ATOM 269 N VAL A 147 9.239 42.066 24.552 1.00 19.17 7 ATOM 270 CA VAL A 147 7.968 41.312 24.548 1.00 19.64 6 ATOM 271 CB VAL A 147 8.263 40.138 25.586 1.00 23.25 6 ATOM 272 CG1 VAL A 147 7.102 39.633 26.344 1.00 36.08 6 ATOM 273 CG2 VAL A 147 8.943 39.101 24.664 1.00 32.42 6 ATOM 274 C VAL A 147 6.844 42.194 25.068 1.00 20.95 6 ATOM 275 O VAL A 147 5.742 42.204 24.529 1.00 21.71 8 ATOM 276 N LYS A 148 7.072 42.924 26.178 1.00 19.59 7 ATOM 277 CA LYS A 148 5.979 43.783 26.688 1.00 21.04 6 ATOM 278 CB LYS A 148 6.499 44.431 27.981 1.00 26.20 6 ATOM 279 CG LYS A 148 6.574 43.388 29.093 1.00 27.82 6 ATOM 280 CD LYS A 148 6.786 44.057 30.419 1.00 30.78 6 ATOM 281 CE LYS A 148 8.007 44.919 30.523 1.00 46.34 6 ATOM 282 NZ LYS A 148 8.210 45.450 31.917 1.00 44.31 7 ATOM 283 C LYS A 148 5.564 44.894 25.702 1.00 20.08 6 ATOM 284 O LYS A 148 4.365 45.111 25.584 1.00 23.45 8 ATOM 285 N THR A 149 6.509 45.375 24.919 1.00 22.66 7 ATOM 286 CA THR A 149 6.199 46.426 23.955 1.00 24.54 6 ATOM 287 CB THR A 149 7.501 46.993 23.359 1.00 28.59 6 ATOM 288 OG1 THR A 149 8.175 47.743 24.398 1.00 27.03 8 ATOM 289 CG2 THR A 149 7.137 47.974 22.239 1.00 26.03 6 ATOM 290 C THR A 149 5.444 45.829 22.784 1.00 22.31 6 ATOM 291 O THR A 149 4.445 46.365 22.357 1.00 23.09 8 ATOM 292 N PHE A 150 5.840 44.627 22.338 1.00 20.35 7 ATOM 293 CA PHE A 150 5.032 43.967 21.295 1.00 20.84 6 ATOM 294 CB PHE A 150 5.656 42.622 20.813 1.00 19.43 6 ATOM 295 CG PHE A 150 6.572 42.840 19.638 1.00 19.28 6 ATOM 296 CD1 PHE A 150 7.767 43.517 19.804 1.00 23.21 6 ATOM 297 CD2 PHE A 150 6.223 42.279 18.424 1.00 22.14 6 ATOM 298 CE1 PHE A 150 8.628 43.662 18.709 1.00 24.38 6 ATOM 299 CE2 PHE A 150 7.090 42.460 17.318 1.00 26.48 6 ATOM 300 CZ PHE A 150 8.274 43.138 17.487 1.00 26.64 6 ATOM 301 C PHE A 150 3.639 43.730 21.816 1.00 21.43 6 ATOM 302 O PHE A 150 2.641 43.978 21.161 1.00 22.18 8 ATOM 303 N HIS A 151 3.492 43.160 23.052 1.00 19.41 7 ATOM 304 CA HIS A 151 2.136 42.899 23.534 1.00 20.29 6 ATOM 305 CB HIS A 151 2.327 42.196 24.892 1.00 20.50 6 ATOM 306 CG HIS A 151 2.926 40.818 24.756 1.00 19.00 6 ATOM 307 CD2 HIS A 151 3.109 39.943 23.786 1.00 21.53 6 ATOM 308 ND1 HIS A 151 3.430 40.277 25.923 1.00 24.13 7 ATOM 309 CE1 HIS A 151 3.844 39.057 25.645 1.00 22.94 6 ATOM 310 NE2 HIS A 151 3.714 38.809 24.336 1.00 23.76 7 ATOM 311 C HIS A 151 1.264 44.140 23.689 1.00 17.69 6 ATOM 312 O HIS A 151 0.092 44.031 23.367 1.00 20.84 8 ATOM 313 N GLU A 152 1.799 45.257 24.154 1.00 20.91 7 ATOM 314 CA GLU A 152 0.990 46.458 24.397 1.00 21.45 6 ATOM 315 CB GLU A 152 1.887 47.401 25.181 1.00 24.45 6 ATOM 316 CG GLU A 152 1.146 48.737 25.465 1.00 35.51 6 ATOM 317 CD GLU A 152 1.910 49.450 26.575 1.00 37.49 6 ATOM 318 OE1 GLU A 152 3.012 49.946 26.243 1.00 60.98 8 ATOM 319 OE2 GLU A 152 1.409 49.523 27.706 1.00 54.52 8 ATOM 320 C GLU A 152 0.652 47.073 23.016 1.00 24.93 6 ATOM 321 O GLU A 152 −0.516 47.374 22.677 1.00 26.68 8 ATOM 322 N THR A 153 1.679 47.050 22.170 1.00 22.06 7 ATOM 323 CA THR A 153 1.553 47.631 20.837 1.00 23.76 6 ATOM 324 CB THR A 153 2.877 47.930 20.167 1.00 22.41 6 ATOM 325 OG1 THR A 153 3.719 48.778 20.982 1.00 25.19 8 ATOM 326 CG2 THR A 153 2.706 48.553 18.778 1.00 26.00 6 ATOM 327 C THR A 153 0.543 46.956 19.957 1.00 25.16 6 ATOM 328 O THR A 153 −0.255 47.624 19.292 1.00 27.39 8 ATOM 329 N LEU A 154 0.581 45.631 19.880 1.00 24.12 7 ATOM 330 CA LEU A 154 −0.293 44.865 19.028 1.00 24.17 6 ATOM 331 CB LEU A 154 0.475 43.699 18.382 1.00 24.04 6 ATOM 332 CG LEU A 154 1.735 44.158 17.692 1.00 23.64 6 ATOM 333 CD1 LEU A 154 2.505 42.926 17.202 1.00 28.71 6 ATOM 334 CD2 LEU A 154 1.410 45.020 16.462 1.00 27.37 6 ATOM 335 C LEU A 154 −1.519 44.271 19.703 1.00 25.12 6 ATOM 336 O LEU A 154 −2.253 43.539 19.036 1.00 30.55 8 ATOM 337 N ASP A 155 −1.650 44.490 20.998 1.00 24.04 7 ATOM 338 CA ASP A 155 −2.798 43.983 21.753 1.00 26.79 6 ATOM 339 CB ASP A 155 −4.088 44.595 21.191 1.00 29.32 6 ATOM 340 CG ASP A 155 −5.288 44.195 22.049 1.00 54.63 6 ATOM 341 OD1 ASP A 155 −6.418 44.190 21.500 1.00 39.24 8 ATOM 342 OD2 ASP A 155 −5.082 43.899 23.250 1.00 34.92 8 ATOM 343 C ASP A 155 −2.830 42.462 21.694 1.00 30.04 6 ATOM 344 O ASP A 155 −3.750 41.884 21.134 1.00 29.77 8 ATOM 345 N CYS A 156 −1.738 41.816 22.153 1.00 25.38 7 ATOM 346 CA CYS A 156 −1.681 40.340 22.082 1.00 25.86 6 ATOM 347 C CYS A 156 −0.797 39.854 23.234 1.00 26.35 6 ATOM 348 O CYS A 156 −0.269 40.677 24.000 1.00 26.19 8 ATOM 349 CB CYS A 156 −1.078 39.839 20.742 1.00 27.96 6 ATOM 350 SG CYS A 156 0.624 40.419 20.466 1.00 24.36 16 ATOM 351 N CYS A 157 −0.843 38.518 23.399 1.00 26.36 7 ATOM 352 CA CYS A 157 −0.036 37.954 24.518 1.00 27.31 6 ATOM 353 C CYS A 157 0.314 36.526 24.086 1.00 24.36 6 ATOM 354 O CYS A 157 −0.521 35.614 23.957 1.00 27.45 8 ATOM 355 CB CYS A 157 −0.965 37.922 25.747 1.00 33.17 6 ATOM 356 SG CYS A 157 −0.201 37.056 27.129 1.00 32.57 16 ATOM 357 N GLY A 158 1.578 36.266 23.759 1.00 23.62 7 ATOM 358 CA GLY A 158 1.997 34.967 23.282 1.00 23.46 6 ATOM 359 C GLY A 158 1.882 34.721 21.802 1.00 24.98 6 ATOM 360 O GLY A 158 1.347 35.496 21.016 1.00 30.72 8 ATOM 361 N SER A 159 2.419 33.571 21.340 1.00 23.28 7 ATOM 362 CA SER A 159 2.365 33.214 19.927 1.00 25.33 6 ATOM 363 CB SER A 159 3.627 33.414 19.111 1.00 37.04 6 ATOM 364 OG SER A 159 4.687 32.681 19.726 1.00 32.95 8 ATOM 365 C SER A 159 1.906 31.752 19.744 1.00 29.87 6 ATOM 366 O SER A 159 2.043 30.944 20.645 1.00 28.52 8 ATOM 367 N SER A 160 1.525 31.513 18.498 1.00 28.89 7 ATOM 368 CA SER A 160 1.020 30.167 18.155 1.00 31.12 6 ATOM 369 CB SER A 160 0.229 30.282 16.851 1.00 29.35 6 ATOM 370 OG SER A 160 0.979 30.793 15.778 1.00 39.68 8 ATOM 371 C SER A 160 2.125 29.135 18.122 1.00 31.20 6 ATOM 372 O SER A 160 1.852 27.946 18.180 1.00 40.09 8 ATOM 373 N THR A 161 3.379 29.492 17.936 1.00 29.17 7 ATOM 374 CA THR A 161 4.535 28.620 17.923 1.00 31.95 6 ATOM 375 CB THR A 161 5.728 29.296 17.195 1.00 32.45 6 ATOM 376 OG1 THR A 161 5.881 30.601 17.775 1.00 30.29 8 ATOM 377 CG2 THR A 161 5.551 29.428 15.705 1.00 29.68 6 ATOM 378 C THR A 161 4.993 28.340 19.364 1.00 29.18 6 ATOM 379 O THR A 161 5.917 27.498 19.536 1.00 30.20 8 ATOM 380 N LEU A 162 4.419 29.014 20.331 1.00 25.69 7 ATOM 381 CA LEU A 162 4.856 28.893 21.717 1.00 27.41 6 ATOM 382 CB LEU A 162 5.756 30.118 22.008 1.00 23.42 6 ATOM 383 CG LEU A 162 7.098 30.162 21.291 1.00 24.84 6 ATOM 384 CD1 LEU A 162 7.779 31.516 21.585 1.00 23.56 6 ATOM 385 CD2 LEU A 162 8.040 29.030 21.756 1.00 25.57 6 ATOM 386 C LEU A 162 3.724 28.789 22.704 1.00 27.32 6 ATOM 387 O LEU A 162 3.776 29.267 23.841 1.00 25.57 8 ATOM 388 N THR A 163 2.651 28.111 22.252 1.00 33.24 7 ATOM 389 CA THR A 163 1.435 27.945 23.005 1.00 34.43 6 ATOM 390 CB THR A 163 0.321 27.242 22.231 1.00 47.90 6 ATOM 391 OG1 THR A 163 0.574 25.833 22.222 1.00 41.55 8 ATOM 392 CG2 THR A 163 0.333 27.684 20.769 1.00 37.28 6 ATOM 393 C THR A 163 1.633 27.365 24.386 1.00 33.67 6 ATOM 394 O THR A 163 1.027 27.836 25.334 1.00 37.42 8 ATOM 395 N ALA A 164 2.588 26.420 24.481 1.00 34.03 7 ATOM 396 CA ALA A 164 2.861 25.891 25.801 1.00 33.86 6 ATOM 397 CB ALA A 164 3.368 24.474 25.747 1.00 38.55 6 ATOM 398 C ALA A 164 3.581 26.799 26.735 1.00 34.37 6 ATOM 399 O ALA A 164 3.702 26.455 27.918 1.00 32.28 8 ATOM 400 N LEU A 165 4.067 27.970 26.286 1.00 33.08 7 ATOM 401 CA LEU A 165 4.711 28.931 27.152 1.00 31.61 6 ATOM 402 CB LEU A 165 5.768 29.707 26.306 1.00 27.45 6 ATOM 403 CG LEU A 165 7.210 29.476 26.442 1.00 27.02 6 ATOM 404 CD1 LEU A 165 8.028 30.517 25.763 1.00 24.12 6 ATOM 405 CD2 LEU A 165 7.803 28.611 27.487 1.00 27.64 6 ATOM 406 C LEU A 165 3.814 30.032 27.651 1.00 29.91 6 ATOM 407 O LEU A 165 4.166 30.745 28.591 1.00 31.12 8 ATOM 408 N THR A 166 2.565 30.108 27.104 1.00 32.70 7 ATOM 409 CA THR A 166 1.679 31.174 27.587 1.00 39.86 6 ATOM 410 CB THR A 166 0.417 31.275 26.724 1.00 36.59 6 ATOM 411 OG1 THR A 166 0.772 31.283 25.342 1.00 36.37 8 ATOM 412 CG2 THR A 166 −0.426 32.496 27.035 1.00 43.25 6 ATOM 413 C THR A 166 1.507 31.273 29.078 1.00 40.96 6 ATOM 414 O THR A 166 1.550 32.372 29.663 1.00 38.71 8 ATOM 415 N THR A 167 1.389 30.162 29.818 1.00 41.60 7 ATOM 416 CA THR A 167 1.264 30.185 31.258 1.00 41.06 6 ATOM 417 CB THR A 167 1.145 28.770 31.877 1.00 56.92 6 ATOM 418 OG1 THR A 167 0.505 27.882 30.956 1.00 64.37 8 ATOM 419 CG2 THR A 167 0.315 28.860 33.144 1.00 53.26 6 ATOM 420 C THR A 167 2.386 30.920 31.965 1.00 38.21 6 ATOM 421 O THR A 167 2.297 31.748 32.872 1.00 38.00 8 ATOM 422 N SER A 168 3.588 30.592 31.464 1.00 36.02 7 ATOM 423 CA SER A 168 4.823 31.175 31.912 1.00 32.03 6 ATOM 424 CB SER A 168 5.950 30.393 31.219 1.00 39.61 6 ATOM 425 OG SER A 168 7.128 30.624 31.944 1.00 41.71 8 ATOM 426 C SER A 168 4.884 32.652 31.518 1.00 30.79 6 ATOM 427 O SER A 168 5.266 33.502 32.301 1.00 33.91 8 ATOM 428 N VAL A 169 4.426 32.962 30.314 1.00 35.38 7 ATOM 429 CA VAL A 169 4.455 34.357 29.876 1.00 27.71 6 ATOM 430 CB VAL A 169 4.121 34.448 28.385 1.00 29.96 6 ATOM 431 CG1 VAL A 169 4.086 35.924 27.943 1.00 25.54 6 ATOM 432 CG2 VAL A 169 5.195 33.724 27.582 1.00 33.79 6 ATOM 433 C VAL A 169 3.604 35.213 30.817 1.00 32.85 6 ATOM 434 O VAL A 169 3.951 36.282 31.333 1.00 35.86 8 ATOM 435 N LEU A 170 2.431 34.704 31.152 1.00 35.39 7 ATOM 436 CA LEU A 170 1.500 35.385 32.050 1.00 39.23 6 ATOM 437 CB LEU A 170 0.244 34.542 32.100 1.00 35.15 6 ATOM 438 CG LEU A 170 −0.801 34.822 31.014 1.00 38.80 6 ATOM 439 CD1 LEU A 170 −2.126 34.272 31.565 1.00 42.41 6 ATOM 440 CD2 LEU A 170 −0.976 36.292 30.731 1.00 45.02 6 ATOM 441 C LEU A 170 2.081 35.543 33.439 1.00 37.13 6 ATOM 442 O LEU A 170 2.037 36.613 34.032 1.00 38.03 8 ATOM 443 N LYS A 171 2.655 34.441 33.932 1.00 39.80 7 ATOM 444 CA LYS A 171 3.240 34.460 35.275 1.00 44.19 6 ATOM 445 CB LYS A 171 3.846 33.078 35.586 1.00 61.33 6 ATOM 446 CG LYS A 171 4.568 33.045 36.927 1.00 70.55 6 ATOM 447 CD LYS A 171 3.614 33.375 38.065 1.00 82.76 6 ATOM 448 CE LYS A 171 4.325 33.536 39.396 1.00 86.15 6 ATOM 449 NZ LYS A 171 3.605 34.470 40.306 1.00 86.50 7 ATOM 450 C LYS A 171 4.330 35.495 35.417 1.00 42.25 6 ATOM 451 O LYS A 171 4.501 36.069 36.505 1.00 40.60 8 ATOM 452 N ASN A 172 5.098 35.697 34.326 1.00 34.05 7 ATOM 453 CA ASN A 172 6.151 36.713 34.380 1.00 32.66 6 ATOM 454 CB ASN A 172 7.200 36.380 33.287 1.00 39.13 6 ATOM 455 CG ASN A 172 8.163 35.288 33.667 1.00 44.80 6 ATOM 456 OD1 ASN A 172 9.197 35.585 34.263 1.00 49.14 8 ATOM 457 ND2 ASN A 172 7.897 34.039 33.329 1.00 37.24 7 ATOM 458 C ASN A 172 5.661 38.135 34.153 1.00 32.11 6 ATOM 459 O ASN A 172 6.468 39.055 33.977 1.00 34.88 8 ATOM 460 N ASN A 173 4.358 38.394 34.203 1.00 31.68 7 ATOM 461 CA ASN A 173 3.768 39.716 34.061 1.00 29.24 6 ATOM 462 CB ASN A 173 4.009 40.629 35.235 1.00 35.84 6 ATOM 463 CG ASN A 173 3.450 39.955 36.506 1.00 36.42 6 ATOM 464 OD1 ASN A 173 2.591 39.085 36.396 1.00 39.55 8 ATOM 465 ND2 ASN A 173 4.002 40.381 37.626 1.00 53.62 7 ATOM 466 C ASN A 173 4.197 40.404 32.740 1.00 29.47 6 ATOM 467 O ASN A 173 4.307 41.640 32.703 1.00 32.55 8 ATOM 468 N LEU A 174 4.282 39.567 31.697 1.00 31.56 7 ATOM 469 CA LEU A 174 4.668 40.131 30.389 1.00 27.42 6 ATOM 470 CB LEU A 174 5.487 39.094 29.567 1.00 27.30 6 ATOM 471 CG LEU A 174 6.789 38.694 30.298 1.00 29.12 6 ATOM 472 CD1 LEU A 174 7.411 37.496 29.567 1.00 28.87 6 ATOM 473 CD2 LEU A 174 7.755 39.890 30.307 1.00 30.51 6 ATOM 474 C LEU A 174 3.472 40.556 29.553 1.00 30.31 6 ATOM 475 O LEU A 174 3.738 41.133 28.468 1.00 26.30 8 ATOM 476 N CYS A 175 2.255 40.276 30.006 1.00 30.27 7 ATOM 477 CA CYS A 175 1.110 40.728 29.213 1.00 30.49 6 ATOM 478 C CYS A 175 0.364 41.868 29.883 1.00 30.71 6 ATOM 479 O CYS A 175 0.383 41.960 31.119 1.00 28.85 8 ATOM 480 CB CYS A 175 0.225 39.531 28.885 1.00 33.22 6 ATOM 481 SG CYS A 175 1.157 38.382 27.797 1.00 34.32 16 ATOM 482 N PRO A 176 −0.216 42.747 29.126 1.00 27.02 7 ATOM 483 CD PRO A 176 −0.202 42.778 27.620 1.00 27.31 6 ATOM 484 CA PRO A 176 −1.031 43.860 29.607 1.00 29.02 6 ATOM 485 CB PRO A 176 −1.802 44.330 28.356 1.00 30.75 6 ATOM 486 CG PRO A 176 −0.681 44.201 27.369 1.00 29.79 6 ATOM 487 C PRO A 176 −2.061 43.417 30.656 1.00 28.74 6 ATOM 488 O PRO A 176 −2.600 42.326 30.586 1.00 29.00 8 ATOM 489 N SER A 177 −2.232 44.390 31.582 1.00 30.95 7 ATOM 490 CA SER A 177 −3.173 44.142 32.688 1.00 35.36 6 ATOM 491 CB SER A 177 −3.415 45.461 33.435 1.00 36.82 6 ATOM 492 OG SER A 177 −2.202 46.102 33.764 1.00 45.84 8 ATOM 493 C SER A 177 −4.485 43.656 32.120 1.00 38.68 6 ATOM 494 O SER A 177 −4.918 44.231 31.107 1.00 42.81 8 ATOM 495 N GLY A 178 −5.101 42.644 32.713 1.00 42.54 7 ATOM 496 CA GLY A 178 −6.357 42.145 32.183 1.00 44.10 6 ATOM 497 C GLY A 178 −6.180 40.771 31.571 1.00 47.58 6 ATOM 498 O GLY A 178 −7.075 39.934 31.641 1.00 48.95 8 ATOM 499 N SER A 179 −5.012 40.548 30.951 1.00 42.04 7 ATOM 500 CA SER A 179 −4.715 39.262 30.363 1.00 39.16 6 ATOM 501 CB SER A 179 −3.278 39.360 29.771 1.00 35.52 6 ATOM 502 OG SER A 179 −3.444 40.056 28.515 1.00 44.97 8 ATOM 503 C SER A 179 −4.702 38.152 31.410 1.00 41.15 6 ATOM 504 O SER A 179 −4.185 38.285 32.522 1.00 38.03 8 ATOM 505 N ASN A 180 −5.273 37.027 31.030 1.00 37.43 7 ATOM 506 CA ASN A 180 −5.370 35.833 31.843 1.00 38.91 6 ATOM 507 CB ASN A 180 −6.498 35.968 32.868 1.00 43.64 6 ATOM 508 CG ASN A 180 −7.760 36.496 32.206 1.00 50.72 6 ATOM 509 OD1 ASN A 180 −7.969 37.713 32.184 1.00 47.95 8 ATOM 510 ND2 ASN A 180 −8.569 35.607 31.652 1.00 40.10 7 ATOM 511 C ASN A 180 −5.659 34.707 30.844 1.00 39.79 6 ATOM 512 O ASN A 180 −5.906 35.014 29.664 1.00 41.96 8 ATOM 513 N ILE A 181 −5.508 33.473 31.256 1.00 40.01 7 ATOM 514 CA ILE A 181 −5.631 32.321 30.375 1.00 35.08 6 ATOM 515 CB ILE A 181 −5.369 31.007 31.114 1.00 43.35 6 ATOM 516 CG2 ILE A 181 −6.180 30.867 32.394 1.00 50.56 6 ATOM 517 CG1 ILE A 181 −5.664 29.800 30.226 1.00 37.17 6 ATOM 518 CD1 ILE A 181 −5.177 28.476 30.772 1.00 61.09 6 ATOM 519 C ILE A 181 −6.930 32.343 29.593 1.00 38.56 6 ATOM 520 O ILE A 181 −6.896 32.286 28.357 1.00 39.50 8 ATOM 521 N ILE A 182 −8.065 32.520 30.276 1.00 31.14 7 ATOM 522 CA ILE A 182 −9.323 32.541 29.548 1.00 33.99 6 ATOM 523 CB ILE A 182 −10.590 32.395 30.398 1.00 35.20 6 ATOM 524 CG2 ILE A 182 −11.798 32.450 29.440 1.00 38.49 6 ATOM 525 CG1 ILE A 182 −10.615 30.996 31.030 1.00 33.92 6 ATOM 526 CD1 ILE A 182 −11.972 30.794 31.679 1.00 41.51 6 ATOM 527 C ILE A 182 −9.453 33.664 28.548 1.00 33.21 6 ATOM 528 O ILE A 182 −9.686 33.395 27.358 1.00 32.00 8 ATOM 529 N SER A 183 −9.300 34.909 28.992 1.00 32.06 7 ATOM 530 CA SER A 183 −9.481 36.019 28.046 1.00 30.17 6 ATOM 531 CB SER A 183 −9.173 37.363 28.705 1.00 40.84 6 ATOM 532 OG SER A 183 −7.832 37.387 29.180 1.00 50.43 8 ATOM 533 C SER A 183 −8.539 35.849 26.867 1.00 29.79 6 ATOM 534 O SER A 183 −8.841 36.209 25.719 1.00 30.43 8 ATOM 535 N ASN A 184 −7.325 35.342 27.158 1.00 29.85 7 ATOM 536 CA ASN A 184 −6.366 35.206 26.073 1.00 29.42 6 ATOM 537 CB ASN A 184 −4.954 35.100 26.613 1.00 32.69 6 ATOM 538 CG ASN A 184 −3.909 35.579 25.617 1.00 39.32 6 ATOM 539 OD1 ASN A 184 −3.902 36.737 25.180 1.00 38.73 8 ATOM 540 ND2 ASN A 184 −3.026 34.659 25.253 1.00 37.01 7 ATOM 541 C ASN A 184 −6.767 34.168 25.046 1.00 29.90 6 ATOM 542 O ASN A 184 −6.416 34.312 23.886 1.00 30.55 8 ATOM 543 N LEU A 185 −7.594 33.180 25.400 1.00 28.17 7 ATOM 544 CA LEU A 185 −8.022 32.190 24.418 1.00 28.14 6 ATOM 545 CB LEU A 185 −8.792 31.069 25.170 1.00 31.80 6 ATOM 546 CG LEU A 185 −7.873 30.228 26.077 1.00 37.24 6 ATOM 547 CD1 LEU A 185 −8.734 29.247 26.874 1.00 38.22 6 ATOM 548 CD2 LEU A 185 −6.862 29.482 25.200 1.00 30.41 6 ATOM 549 C LEU A 185 −8.978 32.794 23.390 1.00 25.61 6 ATOM 550 O LEU A 185 −9.127 32.198 22.304 1.00 29.28 8 ATOM 551 N PHE A 186 −9.577 33.930 23.688 1.00 25.10 7 ATOM 552 CA PHE A 186 −10.524 34.523 22.720 1.00 28.91 6 ATOM 553 CB PHE A 186 −11.725 35.124 23.488 1.00 28.71 6 ATOM 554 CG PHE A 186 −12.636 34.083 24.083 1.00 31.64 6 ATOM 555 CD1 PHE A 186 −12.428 33.583 25.332 1.00 30.09 6 ATOM 556 CD2 PHE A 186 −13.724 33.670 23.346 1.00 29.23 6 ATOM 557 CE1 PHE A 186 −13.280 32.604 25.875 1.00 34.13 6 ATOM 558 CE2 PHE A 186 −14.599 32.724 23.893 1.00 27.11 6 ATOM 559 CZ PHE A 186 −14.364 32.192 25.124 1.00 31.22 6 ATOM 560 C PHE A 186 −9.888 35.661 21.919 1.00 28.36 6 ATOM 561 O PHE A 186 −10.575 36.472 21.302 1.00 30.96 8 ATOM 562 N LYS A 187 −8.558 35.744 21.959 1.00 29.55 7 ATOM 563 CA LYS A 187 −7.849 36.800 21.204 1.00 30.12 6 ATOM 564 CB LYS A 187 −6.981 37.575 22.229 1.00 30.88 6 ATOM 565 CG LYS A 187 −7.821 38.654 22.890 1.00 43.39 6 ATOM 566 CD LYS A 187 −7.047 39.391 23.958 1.00 48.15 6 ATOM 567 CE LYS A 187 −6.085 40.405 23.339 1.00 41.67 6 ATOM 568 NZ LYS A 187 −5.759 41.430 24.369 1.00 42.64 7 ATOM 569 C LYS A 187 −6.869 36.185 20.213 1.00 27.72 6 ATOM 570 O LYS A 187 −6.370 35.086 20.445 1.00 28.84 8 ATOM 571 N GLU A 188 −6.606 36.916 19.110 1.00 26.40 7 ATOM 572 CA GLU A 188 −5.608 36.498 18.144 1.00 24.95 6 ATOM 573 CB GLU A 188 −5.558 37.520 16.994 1.00 30.53 6 ATOM 574 CG GLU A 188 −6.924 37.605 16.315 1.00 39.56 6 ATOM 575 CD GLU A 188 −6.932 38.457 15.068 1.00 58.60 6 ATOM 576 OE1 GLU A 188 −6.597 39.661 15.133 1.00 57.62 8 ATOM 577 OE2 GLU A 188 −7.290 37.897 14.009 1.00 64.79 8 ATOM 578 C GLU A 188 −4.194 36.601 18.808 1.00 20.96 6 ATOM 579 O GLU A 188 −4.014 37.439 19.683 1.00 25.27 8 ATOM 580 N ASP A 189 −3.380 35.673 18.394 1.00 25.32 7 ATOM 581 CA ASP A 189 −2.027 35.623 18.967 1.00 22.63 6 ATOM 582 CB ASP A 189 −1.380 34.237 18.781 1.00 28.31 6 ATOM 583 CG ASP A 189 −0.770 34.114 17.422 1.00 24.61 6 ATOM 584 OD1 ASP A 189 0.473 33.884 17.302 1.00 27.48 8 ATOM 585 OD2 ASP A 189 −1.347 34.337 16.351 1.00 35.01 8 ATOM 586 C ASP A 189 −1.167 36.691 18.300 1.00 22.86 6 ATOM 587 O ASP A 189 −1.537 37.330 17.273 1.00 24.00 8 ATOM 588 N CYS A 190 0.065 36.811 18.805 1.00 22.75 7 ATOM 589 CA CYS A 190 0.956 37.851 18.216 1.00 21.64 6 ATOM 590 C CYS A 190 1.352 37.562 16.782 1.00 21.74 6 ATOM 591 O CYS A 190 1.569 38.596 16.081 1.00 24.29 8 ATOM 592 CB CYS A 190 2.133 38.128 19.101 1.00 23.60 6 ATOM 593 SG CYS A 190 1.730 38.711 20.756 1.00 26.96 16 ATOM 594 N HIS A 191 1.496 36.339 16.299 1.00 22.50 7 ATOM 595 CA HIS A 191 1.881 36.196 14.901 1.00 21.71 6 ATOM 596 CB HIS A 191 2.232 34.740 14.596 1.00 26.64 6 ATOM 597 CG HIS A 191 3.551 34.362 15.222 1.00 26.82 6 ATOM 598 CD2 HIS A 191 4.355 34.965 16.093 1.00 26.94 6 ATOM 599 ND1 HIS A 191 4.129 33.171 14.866 1.00 29.12 7 ATOM 600 CE1 HIS A 191 5.285 33.094 15.532 1.00 25.60 6 ATOM 601 NE2 HIS A 191 5.427 34.114 16.334 1.00 25.91 7 ATOM 602 C HIS A 191 0.831 36.773 14.002 1.00 21.74 6 ATOM 603 O HIS A 191 1.141 37.315 12.904 1.00 24.92 8 ATOM 604 N GLN A 192 −0.436 36.475 14.363 1.00 26.00 7 ATOM 605 CA GLN A 192 −1.530 36.988 13.529 1.00 26.00 6 ATOM 606 CB GLN A 192 −2.890 36.549 14.130 1.00 25.26 6 ATOM 607 CG GLN A 192 −3.979 37.056 13.177 1.00 36.23 6 ATOM 608 CD GLN A 192 −3.954 36.524 11.775 1.00 42.56 6 ATOM 609 OE1 GLN A 192 −4.126 35.350 11.486 1.00 46.38 8 ATOM 610 NE2 GLN A 192 −3.772 37.366 10.753 1.00 34.35 7 ATOM 611 C GLN A 192 −1.505 38.503 13.534 1.00 25.56 6 ATOM 612 O GLN A 192 −1.717 39.139 12.485 1.00 25.01 8 ATOM 613 N LYS A 193 −1.318 39.155 14.685 1.00 22.99 7 ATOM 614 CA LYS A 193 −1.206 40.597 14.767 1.00 21.22 6 ATOM 615 CB LYS A 193 −1.188 41.124 16.218 1.00 20.84 6 ATOM 616 CG LYS A 193 −2.495 40.778 16.896 1.00 22.00 6 ATOM 617 CD LYS A 193 −3.688 41.482 16.250 1.00 28.69 6 ATOM 618 CE LYS A 193 −4.963 41.573 17.081 1.00 42.13 6 ATOM 619 NZ LYS A 193 −4.903 42.588 18.149 1.00 42.68 7 ATOM 620 C LYS A 193 −0.033 41.140 13.970 1.00 23.50 6 ATOM 621 O LYS A 193 −0.182 42.216 13.366 1.00 24.64 8 ATOM 622 N ILE A 194 1.095 40.444 13.924 1.00 20.30 7 ATOM 623 CA ILE A 194 2.211 40.878 13.074 1.00 22.70 6 ATOM 624 CB ILE A 194 3.436 39.972 13.318 1.00 22.09 6 ATOM 625 CG2 ILE A 194 4.487 40.101 12.184 1.00 23.81 6 ATOM 626 CG1 ILE A 194 3.920 40.404 14.714 1.00 20.79 6 ATOM 627 CD1 ILE A 194 4.915 39.428 15.349 1.00 24.12 6 ATOM 628 C ILE A 194 1.767 40.836 11.632 1.00 22.66 6 ATOM 629 O ILE A 194 1.942 41.791 10.879 1.00 23.54 8 ATOM 630 N ASP A 195 1.079 39.728 11.287 1.00 25.86 7 ATOM 631 CA ASP A 195 0.636 39.644 9.875 1.00 28.42 6 ATOM 632 CB ASP A 195 −0.154 38.334 9.694 1.00 30.81 6 ATOM 633 CG ASP A 195 0.736 37.219 9.172 1.00 43.61 6 ATOM 634 OD1 ASP A 195 0.354 36.035 9.317 1.00 40.90 8 ATOM 635 OD2 ASP A 195 1.786 37.567 8.637 1.00 40.27 8 ATOM 636 C ASP A 195 −0.330 40.800 9.581 1.00 25.57 6 ATOM 637 O ASP A 195 −0.257 41.436 8.510 1.00 28.18 8 ATOM 638 N ASP A 196 −1.223 41.116 10.487 1.00 25.86 7 ATOM 639 CA ASP A 196 −2.214 42.186 10.297 1.00 27.70 6 ATOM 640 CB ASP A 196 −3.190 42.304 11.477 1.00 27.67 6 ATOM 641 CG ASP A 196 −4.130 41.117 11.536 1.00 35.55 6 ATOM 642 OD1 ASP A 196 −4.182 40.386 10.527 1.00 37.44 8 ATOM 643 OD2 ASP A 196 −4.830 40.899 12.549 1.00 40.00 8 ATOM 644 C ASP A 196 −1.520 43.522 10.070 1.00 30.21 6 ATOM 645 O ASP A 196 −1.970 44.383 9.300 1.00 29.23 8 ATOM 646 N LEU A 197 −0.448 43.765 10.821 1.00 26.41 7 ATOM 647 CA LEU A 197 0.329 44.989 10.638 1.00 24.54 6 ATOM 648 CB LEU A 197 1.464 45.064 11.623 1.00 22.89 6 ATOM 649 CG LEU A 197 2.400 46.254 11.546 1.00 24.59 6 ATOM 650 CD1 LEU A 197 1.789 47.610 11.857 1.00 28.10 6 ATOM 651 CD2 LEU A 197 3.592 45.960 12.455 1.00 27.91 6 ATOM 652 C LEU A 197 0.858 45.132 9.195 1.00 22.96 6 ATOM 653 O LEU A 197 0.744 46.208 8.599 1.00 25.34 8 ATOM 654 N PHE A 198 1.456 44.113 8.670 1.00 22.19 7 ATOM 655 CA PHE A 198 2.074 44.173 7.320 1.00 26.14 6 ATOM 656 CB PHE A 198 3.191 43.158 7.237 1.00 25.23 6 ATOM 657 CG PHE A 198 4.401 43.555 8.043 1.00 24.37 6 ATOM 658 CD1 PHE A 198 4.583 43.021 9.311 1.00 27.98 6 ATOM 659 CD2 PHE A 198 5.290 44.493 7.600 1.00 26.06 6 ATOM 660 CE1 PHE A 198 5.669 43.416 10.068 1.00 26.50 6 ATOM 661 CE2 PHE A 198 6.376 44.898 8.324 1.00 26.50 6 ATOM 662 CZ PHE A 198 6.583 44.349 9.584 1.00 24.03 6 ATOM 663 C PHE A 198 1.063 44.075 6.215 1.00 27.88 6 ATOM 664 O PHE A 198 1.389 44.527 5.119 1.00 29.23 8 ATOM 665 N SER A 199 −0.163 43.662 6.554 1.00 30.11 7 ATOM 666 CA SER A 199 −1.196 43.609 5.519 1.00 32.39 6 ATOM 667 CB SER A 199 −1.975 42.287 5.669 1.00 34.42 6 ATOM 668 OG SER A 199 −2.802 42.466 6.800 1.00 43.38 8 ATOM 669 C SER A 199 −2.129 44.790 5.572 1.00 32.01 6 ATOM 670 O SER A 199 −3.108 44.873 4.809 1.00 36.63 8 ATOM 671 N GLY A 200 −1.936 45.715 6.497 1.00 26.46 7 ATOM 672 CA GLY A 200 −2.719 46.913 6.622 1.00 30.24 6 ATOM 673 C GLY A 200 −4.089 46.697 7.221 1.00 37.40 6 ATOM 674 O GLY A 200 −5.045 47.396 6.885 1.00 42.48 8 ATOM 675 N LYS A 201 −4.195 45.797 8.186 1.00 35.07 7 ATOM 676 CA LYS A 201 −5.466 45.583 8.887 1.00 39.63 6 ATOM 677 CB LYS A 201 −5.761 44.094 9.088 1.00 41.19 6 ATOM 678 CG LYS A 201 −5.538 43.369 7.769 1.00 43.81 6 ATOM 679 CD LYS A 201 −6.418 42.142 7.586 1.00 52.66 6 ATOM 680 CE LYS A 201 −6.541 41.945 6.069 1.00 53.36 6 ATOM 681 NZ LYS A 201 −6.396 43.284 5.415 1.00 53.44 7 ATOM 682 C LYS A 201 −5.373 46.308 10.219 1.00 44.11 6 ATOM 683 O LYS A 201 −5.967 47.376 10.421 1.00 48.21 8 ATOM 684 N HIS A 202 −4.645 45.700 11.127 1.00 41.73 7 ATOM 685 CA HIS A 202 −4.429 46.288 12.448 1.00 47.06 6 ATOM 686 C HIS A 202 −4.966 47.699 12.541 1.00 50.86 6 ATOM 687 O HIS A 202 −6.043 47.930 13.140 1.00 51.62 8 ATOM 688 CB HIS A 202 −2.892 46.295 12.678 1.00 39.32 6 ATOM 689 CG HIS A 202 −2.571 45.523 13.918 1.00 54.43 6 ATOM 690 ND1 HIS A 202 −3.177 45.808 15.124 1.00 60.36 7 ATOM 691 CD2 HIS A 202 −1.740 44.481 14.121 1.00 32.15 6 ATOM 692 CE1 HIS A 202 −2.714 44.975 16.050 1.00 58.04 6 ATOM 693 NE2 HIS A 202 −1.847 44.161 15.461 1.00 66.87 7 ATOM 694 CB PHE B 213 19.717 35.136 16.091 0.00 34.83 6 ATOM 695 CG PHE B 213 20.197 34.465 17.321 0.00 44.80 6 ATOM 696 CD1 PHE B 213 21.533 34.182 17.521 0.00 58.13 6 ATOM 697 CD2 PHE B 213 19.319 34.146 18.350 0.00 62.44 6 ATOM 698 CE1 PHE B 213 21.983 33.580 18.677 0.00 56.87 6 ATOM 699 CE2 PHE B 213 19.751 33.535 19.518 0.00 69.83 6 ATOM 700 CZ PHE B 213 21.091 33.243 19.683 0.00 53.63 6 ATOM 701 C PHE B 213 18.658 35.823 13.931 1.00 38.28 6 ATOM 702 O PHE B 213 19.511 36.353 13.199 1.00 40.98 8 ATOM 703 N PHE B 213 20.058 33.920 13.960 0.00 39.06 7 ATOM 704 CA PHE B 213 18.949 34.523 14.688 1.00 37.25 6 ATOM 705 N VAL B 214 17.444 36.311 14.059 1.00 28.83 7 ATOM 706 CA VAL B 214 17.111 37.604 13.427 1.00 27.89 6 ATOM 707 CB VAL B 214 15.585 37.806 13.482 1.00 22.89 6 ATOM 708 CG1 VAL B 214 15.193 39.183 12.890 1.00 26.71 6 ATOM 709 CG2 VAL B 214 14.947 36.736 12.598 1.00 28.90 6 ATOM 710 C VAL B 214 17.745 38.665 14.270 1.00 28.77 6 ATOM 711 O VAL B 214 17.533 38.794 15.474 1.00 28.76 8 ATOM 712 N ASN B 215 18.444 39.614 13.620 1.00 29.41 7 ATOM 713 CA ASN B 215 19.127 40.646 14.396 1.00 28.39 6 ATOM 714 CB ASN B 215 20.442 40.928 13.643 1.00 32.91 6 ATOM 715 CG ASN B 215 21.148 42.093 14.265 1.00 39.44 6 ATOM 716 OD1 ASN B 215 21.865 41.881 15.245 1.00 53.33 8 ATOM 717 ND2 ASN B 215 20.905 43.288 13.757 1.00 37.32 7 ATOM 718 C ASN B 215 18.259 41.895 14.501 1.00 27.27 6 ATOM 719 O ASN B 215 17.705 42.313 13.486 1.00 27.80 8 ATOM 720 N LYS B 216 18.223 42.525 15.657 1.00 29.93 7 ATOM 721 CA LYS B 216 17.420 43.699 15.889 1.00 30.04 6 ATOM 722 CB LYS B 216 17.601 44.227 17.320 1.00 38.33 6 ATOM 723 CG LYS B 216 17.259 45.678 17.506 1.00 51.27 6 ATOM 724 CD LYS B 216 18.220 46.399 18.436 1.00 60.50 6 ATOM 725 CE LYS B 216 17.949 47.901 18.401 1.00 41.22 6 ATOM 726 NZ LYS B 216 18.269 48.521 19.723 1.00 56.24 7 ATOM 727 C LYS B 216 17.571 44.843 14.896 1.00 32.97 6 ATOM 728 O LYS B 216 16.642 45.376 14.285 1.00 32.82 8 ATOM 729 N ASP B 217 18.815 45.234 14.662 1.00 30.39 7 ATOM 730 CA ASP B 217 19.079 46.384 13.755 1.00 28.18 6 ATOM 731 CB ASP B 217 20.615 46.597 13.856 1.00 37.07 6 ATOM 732 CG ASP B 217 20.974 47.025 15.271 1.00 50.77 6 ATOM 733 OD1 ASP B 217 20.325 47.961 15.789 1.00 50.99 8 ATOM 734 OD2 ASP B 217 21.873 46.381 15.855 1.00 48.20 8 ATOM 735 C ASP B 217 18.710 46.045 12.326 1.00 27.65 6 ATOM 736 O ASP B 217 18.209 46.917 11.586 1.00 29.68 8 ATOM 737 N GLN B 218 18.945 44.818 11.903 1.00 26.96 7 ATOM 738 CA GLN B 218 18.641 44.363 10.567 1.00 26.89 6 ATOM 739 CB GLN B 218 19.194 43.015 10.137 1.00 28.58 6 ATOM 740 CG GLN B 218 18.876 42.625 8.703 1.00 28.47 6 ATOM 741 CD GLN B 218 19.550 43.604 7.748 1.00 39.80 6 ATOM 742 OE1 GLN B 218 20.732 43.897 7.957 1.00 49.83 8 ATOM 743 NE2 GLN B 218 18.880 44.111 6.730 1.00 37.47 7 ATOM 744 C GLN B 218 17.118 44.408 10.342 1.00 26.99 6 ATOM 745 O GLN B 218 16.688 44.970 9.349 1.00 23.66 8 ATOM 746 N ILE B 219 16.361 43.806 11.268 1.00 22.98 7 ATOM 747 CA ILE B 219 14.909 43.777 11.054 1.00 22.46 6 ATOM 748 CB ILE B 219 14.209 42.791 11.998 1.00 24.01 6 ATOM 749 CG2 ILE B 219 14.320 43.076 13.484 1.00 23.36 6 ATOM 750 CG1 ILE B 219 12.723 42.606 11.625 1.00 27.82 6 ATOM 751 CD1 ILE B 219 12.575 42.170 10.187 1.00 28.39 6 ATOM 752 C ILE B 219 14.345 45.182 11.118 1.00 23.15 6 ATOM 753 O ILE B 219 13.418 45.528 10.374 1.00 24.69 8 ATOM 754 N ALA B 220 14.870 46.029 11.972 1.00 21.24 7 ATOM 755 CA ALA B 220 14.395 47.403 12.053 1.00 23.02 6 ATOM 756 CB ALA B 220 14.940 48.146 13.226 1.00 28.82 6 ATOM 757 C ALA B 220 14.573 48.131 10.730 1.00 23.96 6 ATOM 758 O ALA B 220 13.704 48.838 10.261 1.00 23.87 8 ATOM 759 N LYS B 221 15.767 47.916 10.161 1.00 25.79 7 ATOM 760 CA LYS B 221 16.086 48.555 8.865 1.00 26.23 6 ATOM 761 CB LYS B 221 17.518 48.106 8.505 1.00 23.73 6 ATOM 762 CG LYS B 221 17.859 48.602 7.084 1.00 32.18 6 ATOM 763 CD LYS B 221 19.349 48.458 6.835 1.00 48.70 6 ATOM 764 CE LYS B 221 19.738 48.828 5.402 1.00 49.31 6 ATOM 765 NZ LYS B 221 18.639 48.516 4.446 1.00 60.95 7 ATOM 766 C LYS B 221 15.111 48.086 7.783 1.00 26.25 6 ATOM 767 O LYS B 221 14.595 48.870 6.961 1.00 24.99 8 ATOM 768 N ASP B 222 14.904 46.759 7.727 1.00 24.13 7 ATOM 769 CA ASP B 222 13.988 46.167 6.775 1.00 23.28 6 ATOM 770 CB ASP B 222 13.982 44.670 6.968 1.00 26.58 6 ATOM 771 CG ASP B 222 15.288 43.945 6.671 1.00 37.75 6 ATOM 772 OD1 ASP B 222 16.177 44.545 6.002 1.00 35.10 8 ATOM 773 OD2 ASP B 222 15.441 42.777 7.110 1.00 31.39 8 ATOM 774 C ASP B 222 12.586 46.747 6.890 1.00 24.42 6 ATOM 775 O ASP B 222 11.842 46.970 5.918 1.00 25.24 8 ATOM 776 N VAL B 223 12.130 46.917 8.182 1.00 22.06 7 ATOM 777 CA VAL B 223 10.773 47.427 8.389 1.00 20.51 6 ATOM 778 CB VAL B 223 10.346 47.208 9.897 1.00 19.83 6 ATOM 779 CG1 VAL B 223 8.934 47.819 10.090 1.00 20.77 6 ATOM 780 CG2 VAL B 223 10.265 45.693 10.021 1.00 22.25 6 ATOM 781 C VAL B 223 10.653 48.898 8.031 1.00 21.93 6 ATOM 782 O VAL B 223 9.636 49.304 7.482 1.00 23.92 8 ATOM 783 N LYS B 224 11.687 49.704 8.307 1.00 24.30 7 ATOM 784 CA LYS B 224 11.651 51.102 7.873 1.00 22.31 6 ATOM 785 CB LYS B 224 12.864 51.841 8.430 1.00 23.89 6 ATOM 786 CG LYS B 224 12.817 51.931 9.959 1.00 26.32 6 ATOM 787 CD LYS B 224 14.034 52.827 10.307 1.00 30.62 6 ATOM 788 CE LYS B 224 14.495 52.556 11.713 1.00 36.62 6 ATOM 789 NZ LYS B 224 15.946 52.883 11.937 1.00 36.97 7 ATOM 790 C LYS B 224 11.724 51.116 6.341 1.00 22.74 6 ATOM 791 O LYS B 224 11.013 51.991 5.787 1.00 24.89 8 ATOM 792 N GLN B 225 12.380 50.174 5.720 1.00 23.32 7 ATOM 793 CA GLN B 225 12.371 50.203 4.236 1.00 25.62 6 ATOM 794 CB GLN B 225 13.406 49.210 3.710 1.00 32.12 6 ATOM 795 CG GLN B 225 13.606 49.177 2.203 1.00 38.34 6 ATOM 796 CD GLN B 225 14.606 48.107 1.788 1.00 49.03 6 ATOM 797 OE1 GLN B 225 14.901 47.117 2.477 1.00 39.12 8 ATOM 798 NE2 GLN B 225 15.160 48.322 0.591 1.00 50.68 7 ATOM 799 C GLN B 225 11.015 49.920 3.658 1.00 26.59 6 ATOM 800 O GLN B 225 10.508 50.492 2.680 1.00 27.36 8 ATOM 801 N PHE B 226 10.302 48.952 4.258 1.00 25.80 7 ATOM 802 CA PHE B 226 8.971 48.534 3.933 1.00 20.22 6 ATOM 803 CB PHE B 226 8.522 47.339 4.808 1.00 24.02 6 ATOM 804 CG PHE B 226 7.074 47.012 4.701 1.00 23.15 6 ATOM 805 CD1 PHE B 226 6.628 46.093 3.758 1.00 31.92 6 ATOM 806 CD2 PHE B 226 6.116 47.603 5.521 1.00 24.40 6 ATOM 807 CE1 PHE B 226 5.300 45.763 3.633 1.00 31.15 6 ATOM 808 CE2 PHE B 226 4.777 47.282 5.405 1.00 27.17 6 ATOM 809 CZ PHE B 226 4.358 46.347 4.480 1.00 30.58 6 ATOM 810 C PHE B 226 8.048 49.722 4.129 1.00 25.25 6 ATOM 811 O PHE B 226 7.144 49.992 3.322 1.00 24.87 8 ATOM 812 N TYR B 227 8.134 50.368 5.323 1.00 23.99 7 ATOM 813 CA TYR B 227 7.292 51.560 5.541 1.00 22.94 6 ATOM 814 CB TYR B 227 7.513 52.055 6.995 1.00 24.23 6 ATOM 815 CG TYR B 227 6.875 53.415 7.212 1.00 23.07 6 ATOM 816 CD1 TYR B 227 5.501 53.551 7.469 1.00 22.96 6 ATOM 817 CE1 TYR B 227 4.873 54.758 7.629 1.00 22.01 6 ATOM 818 CD2 TYR B 227 7.591 54.580 7.177 1.00 23.12 6 ATOM 819 CE2 TYR B 227 6.985 55.813 7.341 1.00 26.09 6 ATOM 820 CZ TYR B 227 5.634 55.910 7.543 1.00 23.78 6 ATOM 821 OH TYR B 227 5.113 57.191 7.727 1.00 28.18 8 ATOM 822 C TYR B 227 7.513 52.644 4.489 1.00 21.85 6 ATOM 823 O TYR B 227 6.545 53.199 3.930 1.00 27.43 8 ATOM 824 N ASP B 228 8.769 52.943 4.220 1.00 23.83 7 ATOM 825 CA ASP B 228 9.117 53.991 3.230 1.00 25.77 6 ATOM 826 CB ASP B 228 10.610 54.172 3.106 1.00 26.19 6 ATOM 827 CG ASP B 228 11.279 54.729 4.348 1.00 27.12 6 ATOM 828 OD1 ASP B 228 10.518 55.146 5.256 1.00 28.17 8 ATOM 829 OD2 ASP B 228 12.537 54.751 4.378 1.00 31.94 8 ATOM 830 C ASP B 228 8.519 53.695 1.862 1.00 25.92 6 ATOM 831 O ASP B 228 7.956 54.619 1.257 1.00 28.03 8 ATOM 832 N GLN B 229 8.540 52.452 1.469 1.00 27.73 7 ATOM 833 CA GLN B 229 7.956 52.045 0.199 1.00 31.06 6 ATOM 834 CB GLN B 229 8.436 50.632 −0.154 1.00 32.10 6 ATOM 835 CG GLN B 229 7.569 50.055 −1.271 1.00 40.19 6 ATOM 836 CD GLN B 229 8.063 48.701 −1.765 1.00 35.54 6 ATOM 837 OE1 GLN B 229 7.397 47.704 −1.552 1.00 55.35 8 ATOM 838 NE2 GLN B 229 9.228 48.759 −2.400 1.00 49.50 7 ATOM 839 C GLN B 229 6.462 52.183 0.174 1.00 29.95 6 ATOM 840 O GLN B 229 5.849 52.694 −0.755 1.00 30.54 8 ATOM 841 N ALA B 230 5.752 51.857 1.285 1.00 28.41 7 ATOM 842 CA ALA B 230 4.294 52.032 1.330 1.00 24.57 6 ATOM 843 CB ALA B 230 3.798 51.420 2.650 1.00 29.26 6 ATOM 844 C ALA B 230 3.929 53.503 1.291 1.00 27.29 6 ATOM 845 O ALA B 230 2.899 53.939 0.741 1.00 30.79 8 ATOM 846 N LEU B 231 4.736 54.350 1.937 1.00 24.06 7 ATOM 847 CA LEU B 231 4.454 55.788 1.977 1.00 26.67 6 ATOM 848 CB LEU B 231 5.489 56.473 2.816 1.00 33.38 6 ATOM 849 CG LEU B 231 5.296 57.803 3.506 1.00 35.20 6 ATOM 850 CD1 LEU B 231 4.007 57.825 4.338 1.00 36.95 6 ATOM 851 CD2 LEU B 231 6.470 57.979 4.478 1.00 30.01 6 ATOM 852 C LEU B 231 4.544 56.325 0.526 1.00 28.69 6 ATOM 853 O LEU B 231 3.664 57.109 0.174 1.00 32.37 8 ATOM 854 N GLN B 232 5.594 55.890 −0.151 1.00 28.25 7 ATOM 855 CA GLN B 232 5.788 56.301 −1.539 1.00 26.43 6 ATOM 856 CB GLN B 232 7.123 55.916 −2.154 1.00 27.83 6 ATOM 857 CG GLN B 232 7.104 56.319 −3.651 1.00 40.21 6 ATOM 858 CD GLN B 232 7.235 57.824 −3.813 1.00 44.86 6 ATOM 859 OE1 GLN B 232 8.250 58.422 −3.452 1.00 47.98 8 ATOM 860 NE2 GLN B 232 6.207 58.469 −4.365 1.00 59.78 7 ATOM 861 C GLN B 232 4.602 55.793 −2.328 1.00 32.25 6 ATOM 862 O GLN B 232 3.988 56.547 −3.078 1.00 34.60 8 ATOM 863 N GLN B 233 4.268 54.515 −2.235 1.00 30.14 7 ATOM 864 CA GLN B 233 3.120 53.953 −2.896 1.00 31.57 6 ATOM 865 CB GLN B 233 3.050 52.432 −2.787 1.00 36.28 6 ATOM 866 CG GLN B 233 4.251 51.705 −3.354 1.00 48.59 6 ATOM 867 CD GLN B 233 4.203 50.201 −3.105 1.00 57.17 6 ATOM 868 OE1 GLN B 233 3.292 49.661 −2.475 1.00 55.45 8 ATOM 869 NE2 GLN B 233 5.212 49.490 −3.609 1.00 52.72 7 ATOM 870 C GLN B 233 1.795 54.588 −2.597 1.00 36.59 6 ATOM 871 O GLN B 233 0.978 54.775 −3.490 1.00 33.24 8 ATOM 872 N ALA B 234 1.500 54.941 −1.342 1.00 34.08 7 ATOM 873 CA ALA B 234 0.236 55.543 −0.953 1.00 31.39 6 ATOM 874 CB ALA B 234 0.233 55.805 0.554 1.00 38.61 6 ATOM 875 C ALA B 234 −0.023 56.910 −1.579 1.00 37.11 6 ATOM 876 O ALA B 234 −1.162 57.369 −1.539 1.00 40.52 8 ATOM 877 N VAL B 235 1.020 57.582 −1.993 1.00 35.31 7 ATOM 878 CA VAL B 235 0.886 58.936 −2.523 1.00 45.20 6 ATOM 879 CB VAL B 235 2.237 59.674 −2.510 1.00 45.97 6 ATOM 880 CG1 VAL B 235 2.240 60.797 −3.520 1.00 57.51 6 ATOM 881 CG2 VAL B 235 2.552 60.112 −1.095 1.00 52.58 6 ATOM 882 C VAL B 235 0.303 58.949 −3.917 1.00 47.01 6 ATOM 883 O VAL B 235 −0.462 59.839 −4.250 1.00 44.05 8 ATOM 884 N VAL B 236 0.545 57.898 −4.675 1.00 53.53 7 ATOM 885 CA VAL B 236 0.086 57.778 −6.044 1.00 60.39 6 ATOM 886 CB VAL B 236 1.147 57.008 −6.861 1.00 61.99 6 ATOM 887 CG1 VAL B 236 2.528 57.201 −6.254 1.00 60.20 6 ATOM 888 CG2 VAL B 236 0.778 55.535 −6.904 1.00 55.70 6 ATOM 889 C VAL B 236 −1.253 57.088 −6.212 1.00 62.78 6 ATOM 890 O VAL B 236 −1.887 56.597 −5.282 1.00 63.95 8 ATOM 891 N ASP B 237 −1.720 57.051 −7.456 1.00 65.68 7 ATOM 892 CA ASP B 237 −2.972 56.428 −7.831 1.00 67.82 6 ATOM 893 CB ASP B 237 −2.741 54.984 −8.278 1.00 72.56 6 ATOM 894 CG ASP B 237 −2.597 54.853 −9.782 1.00 75.01 6 ATOM 895 OD1 ASP B 237 −2.837 55.847 −10.500 1.00 71.57 8 ATOM 896 OD2 ASP B 237 −2.249 53.743 −10.241 1.00 73.99 8 ATOM 897 C ASP B 237 −4.041 56.492 −6.756 1.00 67.93 6 ATOM 898 O ASP B 237 −3.990 57.440 −5.938 1.00 69.24 8 ATOM 899 CB ASN C 242 −2.832 47.036 −0.049 1.00 52.44 6 ATOM 900 CG ASN C 242 −3.531 46.708 1.256 1.00 53.59 6 ATOM 901 OD1 ASN C 242 −4.754 46.644 1.309 1.00 68.85 8 ATOM 902 ND2 ASN C 242 −2.755 46.521 2.306 1.00 62.22 7 ATOM 903 C ASN C 242 −2.213 49.417 0.387 1.00 39.79 6 ATOM 904 O ASN C 242 −2.332 49.370 1.630 1.00 39.72 8 ATOM 905 N ASN C 242 −3.171 48.676 −1.871 1.00 39.76 7 ATOM 906 CA ASN C 242 −3.103 48.497 −0.415 1.00 43.08 6 ATOM 907 N ALA C 243 −1.401 50.254 −0.254 1.00 36.60 7 ATOM 908 CA ALA C 243 −0.491 51.133 0.430 1.00 34.21 6 ATOM 909 CB ALA C 243 0.480 51.825 −0.534 1.00 32.11 6 ATOM 910 C ALA C 243 −1.151 52.133 1.366 1.00 36.65 6 ATOM 911 O ALA C 243 −0.621 52.349 2.471 1.00 33.63 8 ATOM 912 N LYS C 244 −2.309 52.694 0.990 1.00 31.22 7 ATOM 913 CA LYS C 244 −2.931 53.638 1.903 1.00 35.12 6 ATOM 914 CB LYS C 244 −4.102 54.402 1.304 1.00 38.30 6 ATOM 915 CG LYS C 244 −3.677 55.244 0.096 1.00 47.69 6 ATOM 916 CD LYS C 244 −4.704 56.314 −0.233 1.00 59.26 6 ATOM 917 CE LYS C 244 −4.248 57.259 −1.342 1.00 45.56 6 ATOM 918 NZ LYS C 244 −3.736 56.493 −2.515 1.00 48.06 7 ATOM 919 C LYS C 244 −3.251 52.942 3.219 1.00 31.26 6 ATOM 920 O LYS C 244 −3.045 53.522 4.294 1.00 37.97 8 ATOM 921 N ALA C 245 −3.851 51.759 3.155 1.00 35.96 7 ATOM 922 CA ALA C 245 −4.202 51.044 4.371 1.00 35.05 6 ATOM 923 CB ALA C 245 −5.204 49.931 4.208 1.00 37.25 6 ATOM 924 C ALA C 245 −2.983 50.617 5.184 1.00 32.82 6 ATOM 925 O ALA C 245 −3.059 50.740 6.420 1.00 29.94 8 ATOM 926 N VAL C 246 −1.907 50.246 4.499 1.00 33.79 7 ATOM 927 CA VAL C 246 −0.705 49.866 5.266 1.00 29.90 6 ATOM 928 CB VAL C 246 0.366 49.269 4.369 1.00 29.88 6 ATOM 929 CG1 VAL C 246 0.056 47.917 3.771 1.00 34.43 6 ATOM 930 CG2 VAL C 246 1.773 49.346 4.931 1.00 29.74 6 ATOM 931 C VAL C 246 −0.168 51.083 5.984 1.00 30.62 6 ATOM 932 O VAL C 246 0.208 51.067 7.166 1.00 29.83 8 ATOM 933 N VAL C 247 −0.095 52.225 5.269 1.00 28.26 7 ATOM 934 CA VAL C 247 0.348 53.468 5.911 1.00 25.89 6 ATOM 935 CB VAL C 247 0.316 54.634 4.873 1.00 32.16 6 ATOM 936 CG1 VAL C 247 0.468 55.966 5.600 1.00 29.03 6 ATOM 937 CG2 VAL C 247 1.529 54.419 3.961 1.00 37.46 6 ATOM 938 C VAL C 247 −0.533 53.832 7.100 1.00 28.13 6 ATOM 939 O VAL C 247 −0.035 54.171 8.176 1.00 27.03 8 ATOM 940 N LYS C 248 −1.851 53.790 6.935 1.00 25.46 7 ATOM 941 CA LYS C 248 −2.739 54.143 8.033 1.00 28.62 6 ATOM 942 CB LYS C 248 −4.215 54.072 7.623 1.00 41.92 6 ATOM 943 CG LYS C 248 −5.117 54.460 8.801 1.00 55.47 6 ATOM 944 CD LYS C 248 −6.509 53.868 8.678 1.00 53.90 6 ATOM 945 CE LYS C 248 −7.538 54.663 9.470 1.00 57.26 6 ATOM 946 NZ LYS C 248 −7.729 56.016 8.867 1.00 64.95 7 ATOM 947 C LYS C 248 −2.548 53.220 9.240 1.00 27.15 6 ATOM 948 O LYS C 248 −2.552 53.715 10.363 1.00 27.05 8 ATOM 949 N THR C 249 −2.356 51.947 8.963 1.00 27.77 7 ATOM 950 CA THR C 249 −2.134 50.940 9.998 1.00 25.68 6 ATOM 951 CB THR C 249 −2.085 49.544 9.335 1.00 32.70 6 ATOM 952 OG1 THR C 249 −3.453 49.231 8.992 1.00 33.92 8 ATOM 953 CG2 THR C 249 −1.680 48.496 10.385 1.00 28.13 6 ATOM 954 C THR C 249 −0.862 51.225 10.734 1.00 21.92 6 ATOM 955 O THR C 249 −0.862 51.153 11.973 1.00 26.37 8 ATOM 956 N PHE C 250 0.224 51.510 10.052 1.00 24.01 7 ATOM 957 CA PHE C 250 1.452 51.874 10.753 1.00 22.16 6 ATOM 958 CB PHE C 250 2.617 51.986 9.764 1.00 23.90 6 ATOM 959 CG PHE C 250 3.359 50.719 9.523 1.00 20.12 6 ATOM 960 CD1 PHE C 250 2.740 49.629 8.943 1.00 26.67 6 ATOM 961 CD2 PHE C 250 4.703 50.639 9.883 1.00 24.12 6 ATOM 962 CE1 PHE C 250 3.448 48.448 8.753 1.00 25.84 6 ATOM 963 CE2 PHE C 250 5.393 49.449 9.704 1.00 26.95 6 ATOM 964 CZ PHE C 250 4.788 48.377 9.098 1.00 26.24 6 ATOM 965 C PHE C 250 1.272 53.105 11.613 1.00 23.98 6 ATOM 966 O PHE C 250 1.713 53.163 12.779 1.00 23.60 8 ATOM 967 N HIS C 251 0.654 54.143 11.040 1.00 23.00 7 ATOM 968 CA HIS C 251 0.506 55.406 11.779 1.00 24.29 6 ATOM 969 CB HIS C 251 −0.108 56.474 10.895 1.00 28.22 6 ATOM 970 CG HIS C 251 0.848 56.857 9.809 1.00 22.07 6 ATOM 971 CD2 HIS C 251 2.172 56.586 9.687 1.00 20.33 6 ATOM 972 ND1 HIS C 251 0.474 57.604 8.733 1.00 27.95 7 ATOM 973 CE1 HIS C 251 1.546 57.774 7.977 1.00 24.46 6 ATOM 974 NE2 HIS C 251 2.594 57.162 8.476 1.00 23.12 7 ATOM 975 C HIS C 251 −0.307 55.195 13.030 1.00 20.90 6 ATOM 976 O HIS C 251 0.070 55.675 14.085 1.00 27.74 8 ATOM 977 N GLU C 252 −1.409 54.479 12.901 1.00 24.95 7 ATOM 978 CA GLU C 252 −2.287 54.246 14.059 1.00 28.46 6 ATOM 979 CB GLU C 252 −3.544 53.531 13.532 1.00 33.82 6 ATOM 980 CG GLU C 252 −4.584 54.560 13.085 1.00 50.99 6 ATOM 981 CD GLU C 252 −5.218 55.177 14.320 1.00 58.60 6 ATOM 982 OE1 GLU C 252 −5.078 54.538 15.384 1.00 71.21 8 ATOM 983 OE2 GLU C 252 −5.827 56.258 14.217 1.00 74.51 8 ATOM 984 C GLU C 252 −1.649 53.320 15.076 1.00 25.23 6 ATOM 985 O GLU C 252 −1.725 53.623 16.292 1.00 27.62 8 ATOM 986 N THR C 253 −0.948 52.285 14.608 1.00 24.22 7 ATOM 987 CA THR C 253 −0.336 51.351 15.541 1.00 25.24 6 ATOM 988 CB THR C 253 0.122 50.084 14.769 1.00 30.19 6 ATOM 989 OG1 THR C 253 −1.087 49.511 14.236 1.00 29.93 8 ATOM 990 CG2 THR C 253 0.659 49.055 15.758 1.00 29.01 6 ATOM 991 C THR C 253 0.830 51.942 16.282 1.00 26.99 6 ATOM 992 O THR C 253 0.987 51.670 17.488 1.00 26.85 8 ATOM 993 N LEU C 254 1.663 52.716 15.590 1.00 25.36 7 ATOM 994 CA LEU C 254 2.892 53.221 16.188 1.00 25.88 6 ATOM 995 CB LEU C 254 4.109 53.104 15.238 1.00 26.52 6 ATOM 996 CG LEU C 254 4.359 51.782 14.532 1.00 28.64 6 ATOM 997 CD1 LEU C 254 5.319 51.868 13.356 1.00 26.29 6 ATOM 998 CD2 LEU C 254 4.785 50.714 15.546 1.00 31.46 6 ATOM 999 C LEU C 254 2.771 54.634 16.713 1.00 23.22 6 ATOM 1000 O LEU C 254 3.703 55.129 17.323 1.00 29.91 8 ATOM 1001 N ASP C 255 1.650 55.306 16.425 1.00 26.04 7 ATOM 1002 CA ASP C 255 1.388 56.653 16.899 1.00 28.87 6 ATOM 1003 CB ASP C 255 1.580 56.705 18.457 1.00 27.97 6 ATOM 1004 CG ASP C 255 0.731 57.830 19.007 1.00 38.75 6 ATOM 1005 OD1 ASP C 255 −0.377 58.016 18.460 1.00 39.85 8 ATOM 1006 OD2 ASP C 255 1.167 58.483 19.981 1.00 49.40 8 ATOM 1007 C ASP C 255 2.398 57.629 16.324 1.00 26.53 6 ATOM 1008 O ASP C 255 3.180 58.334 16.965 1.00 30.14 8 ATOM 1009 N CYS C 256 2.413 57.598 14.957 1.00 23.58 7 ATOM 1010 CA CYS C 256 3.298 58.532 14.225 1.00 23.99 6 ATOM 1011 C CYS C 256 2.648 58.853 12.873 1.00 23.60 6 ATOM 1012 O CYS C 256 1.527 58.447 12.512 1.00 25.41 8 ATOM 1013 CB CYS C 256 4.637 57.834 13.913 1.00 27.13 6 ATOM 1014 SG CYS C 256 4.516 56.303 12.969 1.00 25.36 16 ATOM 1015 N CYS C 257 3.385 59.714 12.151 1.00 24.12 7 ATOM 1016 CA CYS C 257 2.892 60.177 10.853 1.00 23.16 6 ATOM 1017 C CYS C 257 4.139 60.542 10.014 1.00 24.72 6 ATOM 1018 O CYS C 257 4.847 61.504 10.308 1.00 35.05 8 ATOM 1019 CB CYS C 257 2.010 61.419 11.084 1.00 25.12 6 ATOM 1020 SG CYS C 257 1.467 62.126 9.517 1.00 38.79 16 ATOM 1021 N GLY C 258 4.489 59.747 9.012 1.00 28.13 7 ATOM 1022 CA GLY C 258 5.588 60.028 8.166 1.00 29.38 6 ATOM 1023 C GLY C 258 6.986 59.897 8.749 1.00 27.80 6 ATOM 1024 O GLY C 258 7.302 59.270 9.763 1.00 27.20 8 ATOM 1025 N SER C 259 7.907 60.517 7.979 1.00 23.88 7 ATOM 1026 CA SER C 259 9.319 60.378 8.276 1.00 24.44 6 ATOM 1027 CB SER C 259 9.939 59.307 7.342 1.00 24.84 6 ATOM 1028 OG SER C 259 11.346 59.213 7.645 1.00 24.95 8 ATOM 1029 C SER C 259 10.034 61.697 8.068 1.00 23.27 6 ATOM 1030 O SER C 259. 9.868 62.267 6.973 1.00 25.69 8 ATOM 1031 N SER C 260 10.980 62.031 8.914 1.00 23.41 7 ATOM 1032 CA SER C 260 11.848 63.181 8.666 1.00 26.33 6 ATOM 1033 CB SER C 260 12.884 63.261 9.785 1.00 27.51 6 ATOM 1034 OG SER C 260 12.179 63.570 10.989 1.00 28.13 8 ATOM 1035 C SER C 260 12.676 63.039 7.371 1.00 29.57 6 ATOM 1036 O SER C 260 13.077 64.066 6.849 1.00 30.79 8 ATOM 1037 N THR C 261 12.896 61.841 6.873 1.00 26.07 7 ATOM 1038 CA THR C 261 13.692 61.604 5.669 1.00 27.09 6 ATOM 1039 CB THR C 261 14.272 60.165 5.682 1.00 33.47 6 ATOM 1040 OG1 THR C 261 13.261 59.151 5.651 1.00 27.38 8 ATOM 1041 CG2 THR C 261 15.173 59.975 6.879 1.00 32.39 6 ATOM 1042 C THR C 261 12.864 61.784 4.414 1.00 28.01 6 ATOM 1043 O THR C 261 13.421 61.744 3.288 1.00 30.80 8 ATOM 1044 N LEU C 262 11.552 61.893 4.543 1.00 24.40 7 ATOM 1045 CA LEU C 262 10.639 61.952 3.428 1.00 25.43 6 ATOM 1046 CB LEU C 262 9.914 60.611 3.138 1.00 28.21 6 ATOM 1047 CG LEU C 262 10.883 59.510 2.708 1.00 26.53 6 ATOM 1048 CD1 LEU C 262 10.350 58.121 2.895 1.00 30.08 6 ATOM 1049 CD2 LEU C 262 11.259 59.683 1.219 1.00 28.90 6 ATOM 1050 C LEU C 262 9.616 63.049 3.657 1.00 23.19 6 ATOM 1051 O LEU C 262 8.439 62.766 3.792 1.00 26.41 8 ATOM 1052 N THR C 263 10.094 64.280 3.767 1.00 26.39 7 ATOM 1053 CA THR C 263 9.161 65.386 4.059 1.00 27.72 6 ATOM 1054 CB THR C 263 9.896 66.696 4.405 1.00 25.97 6 ATOM 1055 OG1 THR C 263 10.729 66.986 3.282 1.00 30.14 8 ATOM 1056 CG2 THR C 263 10.827 66.427 5.589 1.00 27.82 6 ATOM 1057 C THR C 263 8.032 65.629 3.102 1.00 26.70 6 ATOM 1058 O THR C 263 6.878 65.844 3.504 1.00 28.71 8 ATOM 1059 N ALA C 264 8.304 65.522 1.773 1.00 26.68 7 ATOM 1060 CA ALA C 264 7.204 65.683 0.833 1.00 28.81 6 ATOM 1061 CB ALA C 264 7.792 65.684 −0.583 1.00 37.35 6 ATOM 1062 C ALA C 264 6.131 64.613 0.943 1.00 29.88 6 ATOM 1063 O ALA C 264 4.928 64.893 0.823 1.00 27.29 8 ATOM 1064 N LEU C 265 6.556 63.336 1.110 1.00 26.34 7 ATOM 1065 CA LEU C 265 5.538 62.287 1.253 1.00 25.11 6 ATOM 1066 CB LEU C 265 6.196 60.887 1.270 1.00 28.31 6 ATOM 1067 CG LEU C 265 6.907 60.588 −0.062 1.00 29.73 6 ATOM 1068 CD1 LEU C 265 7.569 59.240 0.095 1.00 33.59 6 ATOM 1069 CD2 LEU C 265 5.839 60.531 −1.146 1.00 28.63 6 ATOM 1070 C LEU C 265 4.751 62.425 2.549 1.00 23.39 6 ATOM 1071 O LEU C 265 3.559 62.162 2.563 1.00 26.66 8 ATOM 1072 N THR C 266 5.439 63.023 3.542 1.00 25.29 7 ATOM 1073 CA THR C 266 4.716 63.271 4.808 1.00 22.08 6 ATOM 1074 CB THR C 266 5.727 63.729 5.881 1.00 23.25 6 ATOM 1075 OG1 THR C 266 6.648 62.625 6.056 1.00 25.07 8 ATOM 1076 CG2 THR C 266 5.058 63.990 7.240 1.00 23.91 6 ATOM 1077 C THR C 266 3.654 64.375 4.578 1.00 22.75 6 ATOM 1078 O THR C 266 2.556 64.260 5.081 1.00 28.42 8 ATOM 1079 N THR C 267 4.040 65.386 3.793 1.00 25.87 7 ATOM 1080 CA THR C 267 3.019 66.421 3.509 1.00 26.21 6 ATOM 1081 CB THR C 267 3.635 67.461 2.586 1.00 28.25 6 ATOM 1082 OG1 THR C 267 4.745 68.101 3.197 1.00 28.51 8 ATOM 1083 CG2 THR C 267 2.581 68.472 2.123 1.00 27.94 6 ATOM 1084 C THR C 267 1.818 65.733 2.855 1.00 27.78 6 ATOM 1085 O THR C 267 0.690 65.985 3.208 1.00 29.01 8 ATOM 1086 N SER C 268 2.094 64.819 1.906 1.00 27.61 7 ATOM 1087 CA SER C 268 0.979 64.143 1.229 1.00 25.35 6 ATOM 1088 CB SER C 268 1.548 63.536 −0.058 1.00 32.95 6 ATOM 1089 OG SER C 268 0.564 62.685 −0.630 1.00 44.07 8 ATOM 1090 C SER C 268 0.101 63.347 2.138 1.00 30.80 6 ATOM 1091 O SER C 268 −1.147 63.435 2.174 1.00 33.02 8 ATOM 1092 N VAL C 269 0.728 62.580 3.065 1.00 27.58 7 ATOM 1093 CA VAL C 269 −0.081 61.844 4.023 1.00 34.13 6 ATOM 1094 CB VAL C 269 0.621 60.665 4.655 1.00 38.22 6 ATOM 1095 CG1 VAL C 269 0.872 59.601 3.584 1.00 45.09 6 ATOM 1096 CG2 VAL C 269 1.899 61.022 5.375 1.00 44.36 6 ATOM 1097 C VAL C 269 −0.922 62.762 4.888 1.00 30.87 6 ATOM 1098 O VAL C 269 −2.068 62.347 5.141 1.00 33.47 8 ATOM 1099 N LEU C 270 −0.426 63.946 5.266 1.00 28.56 7 ATOM 1100 CA LEU C 270 −1.285 64.827 6.067 1.00 30.65 6 ATOM 1101 CB LEU C 270 −0.460 66.044 6.549 1.00 36.56 6 ATOM 1102 CG LEU C 270 0.538 65.662 7.647 1.00 34.36 6 ATOM 1103 CD1 LEU C 270 1.529 66.803 7.862 1.00 41.70 6 ATOM 1104 CD2 LEU C 270 −0.232 65.408 8.925 1.00 35.94 6 ATOM 1105 C LEU C 270 −2.396 65.387 5.189 1.00 33.16 6 ATOM 1106 O LEU C 270 −3.505 65.574 5.686 1.00 45.89 8 ATOM 1107 N LYS C 271 −2.124 65.660 3.938 1.00 34.32 7 ATOM 1108 CA LYS C 271 −3.134 66.246 3.050 1.00 41.10 6 ATOM 1109 CB LYS C 271 −2.472 66.769 1.783 1.00 32.67 6 ATOM 1110 CG LYS C 271 −2.127 68.233 1.717 1.00 43.61 6 ATOM 1111 CD LYS C 271 −0.952 68.551 0.830 1.00 50.73 6 ATOM 1112 CE LYS C 271 −1.260 69.015 −0.572 1.00 54.10 6 ATOM 1113 NZ LYS C 271 −0.039 69.130 −1.431 1.00 56.13 7 ATOM 1114 C LYS C 271 −4.193 65.214 2.672 1.00 46.38 6 ATOM 1115 O LYS C 271 −5.236 65.554 2.114 1.00 47.27 8 ATOM 1116 N ASN C 272 −3.879 63.946 2.880 1.00 45.09 7 ATOM 1117 CA ASN C 272 −4.778 62.853 2.522 1.00 43.41 6 ATOM 1118 CB ASN C 272 −4.086 61.857 1.593 1.00 50.61 6 ATOM 1119 CG ASN C 272 −3.723 62.457 0.250 1.00 49.74 6 ATOM 1120 OD1 ASN C 272 −2.963 61.847 −0.503 1.00 60.30 8 ATOM 1121 ND2 ASN C 272 −4.256 63.636 −0.037 1.00 52.35 7 ATOM 1122 C ASN C 272 −5.367 62.117 3.710 1.00 42.86 6 ATOM 1123 O ASN C 272 −5.855 60.989 3.575 1.00 42.83 8 ATOM 1124 N ASN C 273 −5.378 62.712 4.895 1.00 42.22 7 ATOM 1125 CA ASN C 273 −5.956 62.073 6.073 1.00 44.58 6 ATOM 1126 CB ASN C 273 −7.465 62.188 6.138 1.00 52.14 6 ATOM 1127 CG ASN C 273 −8.169 61.943 7.449 1.00 66.60 6 ATOM 1128 OD1 ASN C 273 −9.311 61.452 7.442 1.00 61.59 8 ATOM 1129 ND2 ASN C 273 −7.599 62.249 8.609 1.00 53.47 7 ATOM 1130 C ASN C 273 −5.447 60.654 6.272 1.00 44.46 6 ATOM 1131 O ASN C 273 −6.213 59.729 6.565 1.00 42.25 8 ATOM 1132 N LEU C 274 −4.120 60.506 6.183 1.00 33.07 7 ATOM 1133 CA LEU C 274 −3.513 59.186 6.407 1.00 37.06 6 ATOM 1134 CB LEU C 274 −2.550 58.789 5.288 1.00 33.35 6 ATOM 1135 CG LEU C 274 −3.171 58.526 3.908 1.00 36.17 6 ATOM 1136 CD1 LEU C 274 −2.201 58.059 2.854 1.00 35.69 6 ATOM 1137 CD2 LEU C 274 −4.292 57.498 4.023 1.00 42.68 6 ATOM 1138 C LEU C 274 −2.827 59.212 7.772 1.00 35.03 6 ATOM 1139 O LEU C 274 −2.224 58.213 8.172 1.00 39.17 8 ATOM 1140 N CYS C 275 −3.049 60.262 8.549 1.00 34.81 7 ATOM 1141 CA CYS C 275 −2.477 60.330 9.886 1.00 36.93 6 ATOM 1142 C CYS C 275 −3.551 60.482 10.979 1.00 41.89 6 ATOM 1143 O CYS C 275 −4.507 61.231 10.816 1.00 42.44 8 ATOM 1144 CB CYS C 275 −1.450 61.458 9.952 1.00 37.22 6 ATOM 1145 SG CYS C 275 0.032 61.171 8.939 1.00 40.09 16 ATOM 1146 N PRO C 276 −3.307 59.747 12.085 1.00 43.00 7 ATOM 1147 CD PRO C 276 −2.168 58.833 12.246 1.00 46.79 6 ATOM 1148 CA PRO C 276 −4.227 59.720 13.270 1.00 45.18 6 ATOM 1149 CB PRO C 276 −3.501 58.834 14.281 1.00 43.00 6 ATOM 1150 CG PRO C 276 −2.108 58.658 13.734 1.00 44.89 6 ATOM 1151 C PRO C 276 −4.522 61.074 13.906 1.00 44.90 6 ATOM 1152 O PRO C 276 −3.683 61.964 13.848 1.00 40.22 8 ATOM 1153 N SER C 277 −5.702 61.239 14.523 1.00 49.31 7 ATOM 1154 CA SER C 277 −6.057 62.560 15.080 1.00 53.44 6 ATOM 1155 CB SER C 277 −7.590 62.750 15.034 1.00 61.29 6 ATOM 1156 OG SER C 277 −7.984 63.864 15.817 1.00 59.45 8 ATOM 1157 C SER C 277 −5.531 62.914 16.533 1.00 56.84 6 ATOM 1158 O SER C 277 −6.323 63.093 17.457 1.00 58.71 8 ATOM 1159 N GLY C 278 −4.196 63.036 16.701 0.00 72.91 7 ATOM 1160 CA GLY C 278 −3.535 63.382 17.979 0.00 72.16 6 ATOM 1161 C GLY C 278 −2.623 64.645 17.863 0.00 71.11 6 ATOM 1162 O GLY C 278 −1.651 64.671 17.108 0.00 72.04 8 ATOM 1163 N GLY C 279 −3.014 65.688 18.600 0.00 67.96 7 ATOM 1164 CA GLY C 279 −2.296 66.962 18.676 0.00 66.01 6 ATOM 1165 C GLY C 279 −0.889 66.636 19.187 0.00 61.41 6 ATOM 1166 O GLY C 279 0.045 67.424 19.020 0.00 60.21 8 ATOM 1167 N ASN C 280 −0.768 65.439 19.816 0.00 43.63 7 ATOM 1168 CA ASN C 280 0.471 64.860 20.274 1.00 41.26 6 ATOM 1169 CB ASN C 280 0.281 63.676 21.248 1.00 51.58 6 ATOM 1170 CG ASN C 280 1.538 62.874 21.591 1.00 65.06 6 ATOM 1171 OD1 ASN C 280 2.201 63.121 22.603 1.00 62.58 8 ATOM 1172 ND2 ASN C 280 1.863 61.923 20.739 1.00 69.23 7 ATOM 1173 C ASN C 280 1.134 64.414 19.000 1.00 39.27 6 ATOM 1174 O ASN C 280 2.367 64.438 18.861 1.00 43.66 8 ATOM 1175 N ILE C 281 0.309 63.983 18.044 1.00 37.18 7 ATOM 1176 CA ILE C 281 0.909 63.540 16.783 1.00 39.37 6 ATOM 1177 CB ILE C 281 −0.106 62.955 15.765 1.00 35.78 6 ATOM 1178 CG2 ILE C 281 0.541 62.824 14.398 1.00 53.65 6 ATOM 1179 CG1 ILE C 281 −0.652 61.595 16.245 1.00 34.01 6 ATOM 1180 CD1 ILE C 281 0.391 60.510 16.337 1.00 39.13 6 ATOM 1181 C ILE C 281 1.619 64.698 16.132 1.00 37.32 6 ATOM 1182 O ILE C 281 2.790 64.607 15.753 1.00 37.87 8 ATOM 1183 N ILE C 282 0.906 65.826 16.001 1.00 29.62 7 ATOM 1184 CA ILE C 282 1.445 66.989 15.332 1.00 29.15 6 ATOM 1185 CB ILE C 282 0.318 68.006 15.057 1.00 29.10 6 ATOM 1186 CG2 ILE C 282 0.792 69.228 14.292 1.00 33.23 6 ATOM 1187 CG1 ILE C 282 −0.887 67.372 14.382 1.00 37.23 6 ATOM 1188 CD1 ILE C 282 −0.521 66.651 13.108 1.00 39.06 6 ATOM 1189 C ILE C 282 2.622 67.555 16.086 1.00 27.74 6 ATOM 1190 O ILE C 282 3.616 67.958 15.470 1.00 27.48 8 ATOM 1191 N SER C 283 2.536 67.671 17.429 1.00 31.63 7 ATOM 1192 CA SER C 283 3.632 68.234 18.186 1.00 28.41 6 ATOM 1193 CB SER C 283 3.217 68.521 19.632 1.00 37.49 6 ATOM 1194 OG SER C 283 3.292 67.403 20.469 1.00 52.68 8 ATOM 1195 C SER C 283 4.900 67.401 18.084 1.00 30.27 6 ATOM 1196 O SER C 283 6.003 67.938 18.285 1.00 30.36 8 ATOM 1197 N ASN C 284 4.773 66.116 17.783 1.00 26.22 7 ATOM 1198 CA ASN C 284 5.959 65.269 17.620 1.00 27.42 6 ATOM 1199 CB ASN C 284 5.744 64.023 18.532 1.00 29.26 6 ATOM 1200 CG ASN C 284 5.959 64.586 19.955 1.00 36.37 6 ATOM 1201 OD1 ASN C 284 7.018 65.179 20.173 1.00 34.52 8 ATOM 1202 ND2 ASN C 284 4.959 64.417 20.770 1.00 39.70 7 ATOM 1203 C ASN C 284 6.060 64.717 16.192 1.00 22.07 6 ATOM 1204 O ASN C 284 6.730 63.711 15.988 1.00 27.09 8 ATOM 1205 N LEU C 285 5.436 65.408 15.232 1.00 25.57 7 ATOM 1206 CA LEU C 285 5.477 64.935 13.835 1.00 24.22 6 ATOM 1207 CB LEU C 285 5.021 66.064 12.899 1.00 28.37 6 ATOM 1208 CG LEU C 285 5.034 65.744 11.397 1.00 27.69 6 ATOM 1209 CD1 LEU C 285 4.105 64.552 11.189 1.00 27.75 6 ATOM 1210 CD2 LEU C 285 4.488 66.992 10.655 1.00 24.39 6 ATOM 1211 C LEU C 285 6.822 64.396 13.386 1.00 28.96 6 ATOM 1212 O LEU C 285 6.917 63.272 12.850 1.00 26.23 8 ATOM 1213 N PHE C 286 7.891 65.192 13.539 1.00 25.55 7 ATOM 1214 CA PHE C 286 9.221 64.787 13.177 1.00 23.44 6 ATOM 1215 CB PHE C 286 9.906 65.839 12.290 1.00 23.03 6 ATOM 1216 CG PHE C 286 9.199 65.986 10.955 1.00 20.67 6 ATOM 1217 CD1 PHE C 286 8.607 67.187 10.626 1.00 23.30 6 ATOM 1218 CD2 PHE C 286 9.115 64.917 10.076 1.00 24.24 6 ATOM 1219 CE1 PHE C 286 7.950 67.339 9.417 1.00 28.29 6 ATOM 1220 CE2 PHE C 286 8.487 65.083 8.856 1.00 25.76 6 ATOM 1221 CZ PHE C 286 7.926 66.293 8.495 1.00 25.94 6 ATOM 1222 C PHE C 286 10.085 64.498 14.414 1.00 24.30 6 ATOM 1223 O PHE C 286 11.143 63.917 14.225 1.00 28.00 8 ATOM 1224 N LYS C 287 9.635 64.960 15.579 1.00 25.79 7 ATOM 1225 CA LYS C 287 10.472 64.671 16.761 1.00 28.66 6 ATOM 1226 CB LYS C 287 9.975 65.378 18.014 1.00 30.74 6 ATOM 1227 CG LYS C 287 10.046 66.886 17.851 1.00 39.07 6 ATOM 1228 CD LYS C 287 9.564 67.582 19.120 1.00 37.66 6 ATOM 1229 CE LYS C 287 10.235 67.045 20.364 1.00 44.51 6 ATOM 1230 NZ LYS C 287 9.589 67.630 21.579 1.00 51.78 7 ATOM 1231 C LYS C 287 10.393 63.163 17.058 1.00 27.32 6 ATOM 1232 O LYS C 287 11.378 62.681 17.638 1.00 32.08 8 ATOM 1233 N GLU C 288 9.262 62.558 16.853 1.00 25.65 7 ATOM 1234 CA GLU C 288 9.168 61.109 17.057 1.00 26.38 6 ATOM 1235 CB GLU C 288 8.405 60.799 18.330 1.00 32.61 6 ATOM 1236 CG GLU C 288 8.883 61.580 19.545 1.00 35.86 6 ATOM 1237 CD GLU C 288 7.953 61.282 20.715 1.00 49.68 6 ATOM 1238 OE1 GLU C 288 7.772 62.105 21.631 1.00 55.75 8 ATOM 1239 OE2 GLU C 288 7.361 60.177 20.724 1.00 63.52 8 ATOM 1240 C GLU C 288 8.424 60.477 15.876 1.00 24.79 6 ATOM 1241 O GLU C 288 7.289 60.032 15.983 1.00 25.16 8 ATOM 1242 N ASP C 289 9.125 60.434 14.753 1.00 26.85 7 ATOM 1243 CA ASP C 289 8.568 59.980 13.508 1.00 24.56 6 ATOM 1244 CB ASP C 289 9.369 60.684 12.398 1.00 25.50 6 ATOM 1245 CG ASP C 289 10.715 60.115 12.072 1.00 27.35 6 ATOM 1246 OD1 ASP C 289 11.562 60.768 11.372 1.00 26.87 8 ATOM 1247 OD2 ASP C 289 11.060 58.983 12.489 1.00 26.73 8 ATOM 1248 C ASP C 289 8.519 58.474 13.355 1.00 25.27 6 ATOM 1249 O ASP C 289 8.888 57.761 14.315 1.00 24.29 8 ATOM 1250 N CYS C 290 7.889 57.995 12.292 1.00 22.72 7 ATOM 1251 CA CYS C 290 7.722 56.512 12.197 1.00 21.85 6 ATOM 1252 C CYS C 290 9.039 55.781 12.183 1.00 23.09 6 ATOM 1253 O CYS C 290 8.987 54.628 12.645 1.00 24.17 8 ATOM 1254 CB CYS C 290 6.862 56.136 11.009 1.00 26.13 6 ATOM 1255 SG CYS C 290 5.240 56.851 11.104 1.00 24.30 16 ATOM 1256 N HIS C 291 10.181 56.308 11.712 1.00 21.89 7 ATOM 1257 CA HIS C 291 11.421 55.547 11.830 1.00 19.74 6 ATOM 1258 CB HIS C 291 12.547 56.294 11.070 1.00 25.39 6 ATOM 1259 CG HIS C 291 12.326 56.132 9.596 1.00 23.25 6 ATOM 1260 CD2 HIS C 291 11.317 55.748 8.792 1.00 26.31 6 ATOM 1261 ND1 HIS C 291 13.423 56.382 8.784 1.00 27.59 7 ATOM 1262 CE1 HIS C 291 13.078 56.155 7.514 1.00 30.34 6 ATOM 1263 NE2 HIS C 291 11.831 55.757 7.489 1.00 25.82 7 ATOM 1264 C HIS C 291 11.759 55.412 13.318 1.00 22.34 6 ATOM 1265 O HIS C 291 12.280 54.354 13.735 1.00 25.37 8 ATOM 1266 N GLN C 292 11.615 56.518 14.052 1.00 20.97 7 ATOM 1267 CA GLN C 292 11.899 56.386 15.511 1.00 21.60 6 ATOM 1268 CB GLN C 292 11.760 57.772 16.145 1.00 27.40 6 ATOM 1269 CG GLN C 292 12.000 57.661 17.656 1.00 28.40 6 ATOM 1270 CD GLN C 292 13.484 57.430 17.859 1.00 32.24 6 ATOM 1271 OE1 GLN C 292 14.393 58.103 17.336 1.00 39.00 8 ATOM 1272 NE2 GLN C 292 13.874 56.455 18.679 1.00 35.20 7 ATOM 1273 C GLN C 292 10.977 55.406 16.173 1.00 22.96 6 ATOM 1274 O GLN C 292 11.439 54.599 17.005 1.00 25.46 8 ATOM 1275 N LYS C 293 9.706 55.391 15.844 1.00 20.49 7 ATOM 1276 CA LYS C 293 8.766 54.437 16.454 1.00 24.11 6 ATOM 1277 CB LYS C 293 7.316 54.705 16.123 1.00 21.49 6 ATOM 1278 CG LYS C 293 6.906 56.132 16.541 1.00 20.82 6 ATOM 1279 CD LYS C 293 7.166 56.246 18.080 1.00 26.19 6 ATOM 1280 CE LYS C 293 6.380 57.510 18.465 1.00 31.71 6 ATOM 1281 NZ LYS C 293 6.412 57.682 19.953 1.00 43.53 7 ATOM 1282 C LYS C 293 9.094 52.995 16.091 1.00 24.90 6 ATOM 1283 O LYS C 293 9.021 52.081 16.925 1.00 25.35 8 ATOM 1284 N ILE C 294 9.502 52.769 14.834 1.00 23.01 7 ATOM 1285 CA ILE C 294 9.914 51.416 14.443 1.00 21.69 6 ATOM 1286 CB ILE C 294 10.149 51.365 12.898 1.00 20.45 6 ATOM 1287 CG2 ILE C 294 10.902 50.053 12.595 1.00 22.39 6 ATOM 1288 CG1 ILE C 294 8.826 51.424 12.182 1.00 22.59 6 ATOM 1289 CD1 ILE C 294 9.013 51.723 10.682 1.00 22.71 6 ATOM 1290 C ILE C 294 11.139 50.978 15.210 1.00 21.79 6 ATOM 1291 O ILE C 294 11.250 49.852 15.725 1.00 23.79 8 ATOM 1292 N ASP C 295 12.098 51.912 15.441 1.00 23.67 7 ATOM 1293 CA ASP C 295 13.281 51.560 16.213 1.00 23.07 6 ATOM 1294 CB ASP C 295 14.291 52.722 16.301 1.00 27.78 6 ATOM 1295 CG ASP C 295 15.082 52.938 15.034 1.00 37.31 6 ATOM 1296 OD1 ASP C 295 15.209 51.983 14.243 1.00 32.94 8 ATOM 1297 OD2 ASP C 295 15.570 54.098 14.872 1.00 41.42 8 ATOM 1298 C ASP C 295 12.825 51.240 17.666 1.00 23.22 6 ATOM 1299 O ASP C 295 13.357 50.303 18.289 1.00 26.53 8 ATOM 1300 N ASP C 296 11.931 52.047 18.194 1.00 23.58 7 ATOM 1301 CA ASP C 296 11.458 51.889 19.570 1.00 23.39 6 ATOM 1302 CB ASP C 296 10.529 53.012 20.025 1.00 27.78 6 ATOM 1303 CG ASP C 296 11.224 54.362 20.124 1.00 29.71 6 ATOM 1304 OD1 ASP C 296 12.461 54.427 20.176 1.00 31.37 8 ATOM 1305 OD2 ASP C 296 10.444 55.326 20.197 1.00 39.13 8 ATOM 1306 C ASP C 296 10.756 50.552 19.733 1.00 27.01 6 ATOM 1307 O ASP C 296 10.850 49.914 20.794 1.00 29.39 8 ATOM 1308 N LEU C 297 10.007 50.102 18.742 1.00 23.26 7 ATOM 1309 CA LEU C 297 9.314 48.820 18.800 1.00 26.92 6 ATOM 1310 CB LEU C 297 8.515 48.599 17.481 1.00 23.50 6 ATOM 1311 CG LEU C 297 7.865 47.206 17.409 1.00 25.96 6 ATOM 1312 CD1 LEU C 297 6.821 46.978 18.514 1.00 23.25 6 ATOM 1313 CD2 LEU C 297 7.209 47.043 16.056 1.00 30.08 6 ATOM 1314 C LEU C 297 10.319 47.700 18.994 1.00 22.60 6 ATOM 1315 O LEU C 297 10.238 46.833 19.871 1.00 25.36 8 ATOM 1316 N PHE C 298 11.370 47.704 18.181 1.00 22.46 7 ATOM 1317 CA PHE C 298 12.397 46.657 18.190 1.00 22.98 6 ATOM 1318 CB PHE C 298 13.146 46.534 16.828 1.00 21.20 6 ATOM 1319 CG PHE C 298 12.215 45.936 15.763 1.00 21.65 6 ATOM 1320 CD1 PHE C 298 11.603 46.775 14.851 1.00 23.88 6 ATOM 1321 CD2 PHE C 298 11.945 44.579 15.727 1.00 19.61 6 ATOM 1322 CE1 PHE C 298 10.711 46.287 13.918 1.00 23.10 6 ATOM 1323 CE2 PHE C 298 10.976 44.082 14.879 1.00 22.89 6 ATOM 1324 CZ PHE C 298 10.385 44.944 13.954 1.00 22.89 6 ATOM 1325 C PHE C 298 13.346 46.765 19.366 1.00 22.24 6 ATOM 1326 O PHE C 298 13.995 45.762 19.696 1.00 26.14 8 ATOM 1327 N SER C 299 13.452 47.932 19.987 1.00 25.90 7 ATOM 1328 CA SER C 299 14.264 48.166 21.163 1.00 27.99 6 ATOM 1329 CB SER C 299 14.694 49.677 21.208 1.00 28.04 6 ATOM 1330 OG SER C 299 15.551 49.835 20.076 1.00 48.85 8 ATOM 1331 C SER C 299 13.465 47.944 22.441 1.00 27.66 6 ATOM 1332 O SER C 299 14.116 47.914 23.506 1.00 33.14 8 ATOM 1333 N GLY C 300 12.146 47.836 22.389 1.00 25.96 7 ATOM 1334 CA GLY C 300 11.389 47.595 23.618 1.00 26.90 6 ATOM 1335 C GLY C 300 11.182 48.875 24.404 1.00 30.76 6 ATOM 1336 O GLY C 300 11.023 48.830 25.639 1.00 31.00 8 ATOM 1337 N LYS C 301 11.073 49.975 23.685 1.00 29.45 7 ATOM 1338 CA LYS C 301 10.905 51.285 24.343 1.00 33.22 6 ATOM 1339 CB LYS C 301 12.104 52.130 23.800 1.00 34.54 6 ATOM 1340 CG LYS C 301 13.438 51.692 24.356 1.00 45.39 6 ATOM 1341 CD LYS C 301 14.579 52.509 23.760 1.00 55.89 6 ATOM 1342 CE LYS C 301 15.883 52.152 24.454 1.00 63.37 6 ATOM 1343 NZ LYS C 301 15.809 50.819 25.114 1.00 64.44 7 ATOM 1344 C LYS C 301 9.716 52.056 23.798 1.00 34.37 6 ATOM 1345 O LYS C 301 9.632 53.265 24.050 1.00 41.72 8 ATOM 1346 N HIS C 302 8.910 51.471 22.953 1.00 34.82 7 ATOM 1347 CA HIS C 302 7.804 52.130 22.291 1.00 37.17 6 ATOM 1348 CB HIS C 302 7.209 51.176 21.276 1.00 36.32 6 ATOM 1349 CG HIS C 302 6.061 51.594 20.444 1.00 49.41 6 ATOM 1350 CD2 HIS C 302 5.233 52.660 20.480 1.00 59.81 6 ATOM 1351 ND1 HIS C 302 5.644 50.821 19.377 1.00 48.06 7 ATOM 1352 CE1 HIS C 302 4.594 51.386 18.808 1.00 59.89 6 ATOM 1353 NE2 HIS C 302 4.330 52.514 19.455 1.00 63.35 7 ATOM 1354 C HIS C 302 6.748 52.610 23.267 1.00 38.73 6 ATOM 1355 O HIS C 302 6.229 51.770 24.028 1.00 38.79 8 ATOM 1356 OXT HIS C 302 6.450 53.825 23.192 1.00 50.99 8 ATOM 1357 OW WAT W 1 −4.224 33.423 34.144 1.00 53.27 8 ATOM 1358 OW WAT W 2 18.813 49.538 11.784 1.00 43.86 8 ATOM 1359 OW WAT W 3 18.261 39.681 10.865 1.00 39.76 8 ATOM 1360 OW WAT W 4 8.904 33.078 11.851 1.00 38.31 8 ATOM 1361 OW WAT W 5 4.199 60.972 19.377 1.00 52.52 8 ATOM 1362 OW WAT W 6 14.477 53.540 5.612 1.00 48.28 8 ATOM 1363 OW WAT W 7 11.280 35.102 −0.408 1.00 43.88 8 ATOM 1364 OW WAT W 8 10.087 32.358 34.001 1.00 39.96 8 ATOM 1365 OW WAT W 9 15.416 57.414 13.859 1.00 48.04 8 ATOM 1366 OW WAT W 10 1.929 52.862 20.272 1.00 55.69 8 ATOM 1367 OW WAT W 11 4.935 60.748 16.928 1.00 39.08 8 ATOM 1368 OW WAT W 12 −3.393 52.954 −1.588 1.00 50.38 8 ATOM 1369 OW WAT W 13 −13.253 36.368 20.479 1.00 42.42 8 ATOM 1370 OW WAT W 14 0.313 32.026 34.781 1.00 47.16 8 ATOM 1371 OW WAT W 15 −6.564 45.853 14.770 1.00 68.25 8 ATOM 1372 OW WAT W 16 12.038 51.785 0.724 1.00 41.22 8 ATOM 1373 OW WAT W 17 14.999 64.994 4.375 1.00 48.22 8 ATOM 1374 OW WAT W 18 17.970 48.546 24.089 1.00 68.67 8 ATOM 1375 OW WAT W 19 18.217 40.214 24.483 1.00 47.37 8 ATOM 1376 OW WAT W 20 1.939 28.873 14.169 1.00 44.69 8 ATOM 1377 OW WAT W 21 3.847 66.616 −1.008 1.00 44.63 8 ATOM 1378 OW WAT W 22 −3.915 63.084 7.867 1.00 45.45 8 ATOM 1379 OW WAT W 23 19.360 45.486 31.250 1.00 63.22 8 ATOM 1380 OW WAT W 24 10.025 47.358 30.471 1.00 67.04 8 ATOM 1381 OW WAT W 25 13.664 53.469 2.124 1.00 42.64 8 ATOM 1382 OW WAT W 26 −5.012 60.157 −2.193 1.00 61.60 8 ATOM 1383 OW WAT W 27 6.815 67.394 21.507 1.00 52.80 8 ATOM 1384 OW WAT W 28 17.915 33.402 34.758 1.00 44.35 8 ATOM 1385 OW WAT W 29 16.731 42.979 3.382 1.00 84.13 8 ATOM 1386 OW WAT W 30 −6.288 67.664 0.468 1.00 45.25 8 ATOM 1387 OW WAT W 31 7.402 62.280 10.335 1.00 42.54 8 ATOM 1388 OW WAT W 32 15.598 43.947 1.369 1.00 56.42 8 ATOM 1389 OW WAT W 33 −7.926 47.819 12.072 1.00 44.03 8 ATOM 1390 OW WAT W 34 16.998 49.958 15.318 1.00 48.80 8 ATOM 1391 OW WAT W 35 8.586 64.846 22.173 1.00 69.56 8 ATOM 1392 OW WAT W 36 −0.416 48.332 28.972 1.00 49.67 8 ATOM 1393 OW WAT W 37 −1.687 35.124 10.272 1.00 51.02 8 ATOM 1394 OW WAT W 38 8.930 32.323 14.635 1.00 43.76 8 ATOM 1395 OW WAT W 39 14.596 53.388 26.734 1.00 54.53 8 ATOM 1396 OW WAT W 40 −11.348 62.652 8.819 1.00 63.88 8 ATOM 1397 OW WAT W 41 3.903 62.050 15.465 1.00 38.48 8 ATOM 1398 OW WAT W 42 −7.252 41.756 19.850 1.00 52.81 8 ATOM 1399 OW WAT W 43 −1.996 56.577 17.341 1.00 59.40 8 ATOM 1400 OW WAT W 44 4.137 49.725 23.884 1.00 48.85 8 ATOM 1401 OW WAT W 45 15.737 51.416 6.167 1.00 38.54 8 ATOM 1402 OW WAT W 46 −5.011 40.117 20.046 1.00 38.42 8 ATOM 1403 OW WAT W 47 −13.873 33.451 19.673 1.00 42.16 8 ATOM 1404 OW WAT W 48 11.057 53.487 −1.251 1.00 51.34 8 ATOM 1405 OW WAT W 49 14.300 48.217 26.182 1.00 45.81 8 ATOM 1406 OW WAT W 50 12.120 58.997 −1.940 1.00 63.88 8 ATOM 1407 OW WAT W 51 −0.336 33.581 11.855 1.00 48.03 8 ATOM 1408 OW WAT W 52 16.829 63.174 4.226 1.00 48.59 8 ATOM 1409 OW WAT W 53 16.022 41.438 23.130 1.00 41.43 8 ATOM 1410 OW WAT W 54 −15.200 36.945 22.654 1.00 28.98 8 ATOM 1411 OW WAT W 55 13.277 40.851 6.595 1.00 29.49 8 ATOM 1412 OW WAT W 56 12.069 61.338 14.855 1.00 27.04 8 ATOM 1413 OW WAT W 57 3.227 32.023 23.771 1.00 30.91 8 ATOM 1414 OW WAT W 58 9.562 62.631 0.352 1.00 32.41 8 ATOM 1415 OW WAT W 59 6.585 69.144 1.589 1.00 39.21 8 ATOM 1416 OW WAT W 60 5.345 68.911 −0.882 1.00 44.18 8 ATOM 1417 OW WAT W 61 −0.751 50.368 19.292 1.00 32.73 8 ATOM 1418 OW WAT W 62 17.617 40.863 26.974 1.00 32.29 8 ATOM 1419 OW WAT W 63 1.179 39.116 32.520 1.00 34.20 8 ATOM 1420 OW WAT W 64 −3.110 37.236 22.171 1.00 33.88 8 ATOM 1421 OW WAT W 65 14.044 57.099 4.209 1.00 33.65 8 ATOM 1422 OW WAT W 66 15.989 40.653 9.396 1.00 30.96 8 ATOM 1423 OW WAT W 67 5.371 35.579 5.640 1.00 34.67 8 ATOM 1424 OW WAT W 68 −4.275 34.135 21.863 1.00 40.99 8 ATOM 1425 OW WAT W 69 −10.323 38.406 25.608 1.00 36.01 8 ATOM 1426 OW WAT W 70 −2.810 46.901 24.190 1.00 39.93 8 ATOM 1427 OW WAT W 71 13.870 64.852 12.989 1.00 34.39 8 ATOM 1428 OW WAT W 72 4.793 27.473 30.299 1.00 46.24 8 ATOM 1429 OW WAT W 73 −15.971 32.066 20.578 1.00 38.92 8 ATOM 1430 OW WAT W 74 5.399 34.420 8.086 1.00 39.29 8 ATOM 1431 OW WAT W 75 −0.519 32.450 14.342 1.00 33.68 8 ATOM 1432 OW WAT W 76 2.179 32.697 11.146 1.00 36.98 8 ATOM 1433 OW WAT W 77 10.170 56.080 −0.241 1.00 39.89 8 ATOM 1434 OW WAT W 78 5.714 48.333 1.212 1.00 37.11 8 ATOM 1435 OW WAT W 79 −4.290 33.857 16.226 1.00 37.36 8 ATOM 1436 OW WAT W 80 2.780 25.857 19.866 1.00 36.02 8 ATOM 1437 OW WAT W 81 12.798 43.202 2.474 1.00 34.74 8 ATOM 1438 OW WAT W 82 −7.897 39.332 18.472 1.00 41.75 8 ATOM 1439 OW WAT W 83 16.117 44.618 21.247 1.00 31.97 8 ATOM 1440 OW WAT W 84 11.055 65.023 0.596 1.00 38.11 8 ATOM 1441 OW WAT W 85 12.824 45.673 3.486 1.00 33.54 8 ATOM 1442 OW WAT W 86 15.100 60.207 1.681 1.00 45.21 8 ATOM 1443 OW WAT W 87 −4.960 50.919 0.707 1.00 47.99 8 ATOM 1444 OW WAT W 88 9.128 42.918 32.795 1.00 44.27 8 ATOM 1445 OW WAT W 89 9.762 58.054 20.187 1.00 47.67 8 ATOM 1446 OW WAT W 90 12.540 34.153 9.788 1.00 45.77 8 ATOM 1447 OW WAT W 91 17.905 51.635 10.678 1.00 40.67 8 ATOM 1448 OW WAT W 92 −3.398 39.623 8.128 1.00 45.41 8 ATOM 1449 OW WAT W 93 6.924 42.895 −0.650 1.00 42.91 8 ATOM 1450 OW WAT W 94 7.797 55.535 21.646 1.00 50.17 8 ATOM 1451 OW WAT W 95 12.822 64.411 2.584 1.00 37.53 8 ATOM 1452 OW WAT W 96 10.955 46.835 −5.508 1.00 45.36 8 ATOM 1453 OW WAT W 97 13.257 59.487 9.888 1.00 36.34 8 ATOM 1454 OW WAT W 98 14.865 39.030 19.548 1.00 41.41 8 ATOM 1455 OW WAT W 99 −2.138 41.902 25.462 1.00 41.60 8 ATOM 1456 OW WAT W 100 −3.706 31.806 24.679 1.00 40.94 8 ATOM 1457 OW WAT W 101 5.836 33.167 1.082 1.00 43.31 8 ATOM 1458 OW WAT W 102 23.483 39.507 35.275 1.00 57.98 8 ATOM 1459 OW WAT W 103 17.559 63.021 7.407 1.00 50.25 8 ATOM 1460 OW WAT W 104 19.056 43.139 28.930 1.00 42.00 8 ATOM 1461 OW WAT W 105 19.572 41.453 18.032 1.00 45.63 8 ATOM 1462 OW WAT W 106 6.525 39.243 −0.417 1.00 40.74 8 ATOM 1463 OW WAT W 107 3.627 31.518 12.831 1.00 38.63 8 ATOM 1464 OW WAT W 108 5.366 58.591 23.270 1.00 55.71 8 ATOM 1465 OW WAT W 109 −0.088 26.458 16.764 1.00 52.60 8 ATOM 1466 OW WAT W 110 17.119 48.571 −9.546 1.00 47.91 8 ATOM 1467 OW WAT W 111 1.096 44.692 2.583 1.00 40.04 8 ATOM 1468 OW WAT W 112 16.042 35.471 8.298 1.00 50.36 8 ATOM 1469 OW WAT W 113 12.648 35.159 33.701 1.00 39.34 8 ATOM 1470 OW WAT W 114 3.337 49.000 −0.094 1.00 52.85 8 ATOM 1471 OW WAT W 115 20.033 39.068 22.889 1.00 58.35 8 ATOM 1472 OW WAT W 116 10.097 47.403 34.472 1.00 58.00 8 ATOM 1473 OW WAT W 117 10.830 41.416 −3.209 1.00 41.27 8 ATOM 1474 OW WAT W 118 12.754 36.719 35.635 1.00 54.11 8 ATOM 1475 OW WAT W 119 −0.813 31.338 21.906 1.00 46.66 8 ATOM 1476 OW WAT W 120 3.965 25.061 22.618 1.00 44.72 8 ATOM 1477 OW WAT W 121 13.777 59.149 13.305 1.00 41.18 8 ATOM 1478 OW WAT W 122 4.277 55.533 20.931 1.00 46.53 8 ATOM 1479 OW WAT W 123 −7.345 30.636 20.890 1.00 46.01 8 ATOM 1480 OW WAT W 124 16.037 45.847 −5.475 1.00 50.06 8 ATOM 1481 OW WAT W 125 −3.061 47.338 18.259 1.00 41.61 8 ATOM 1482 OW WAT W 126 10.453 31.620 10.805 1.00 50.39 8 ATOM 1483 OW WAT W 127 17.496 40.971 20.796 1.00 55.25 8 ATOM 1484 OW WAT W 128 −6.207 32.805 19.155 1.00 58.66 8 ATOM 1485 OW WAT W 129 16.601 45.869 −1.260 1.00 59.55 8 ATOM 1486 OW WAT W 130 2.484 51.452 22.049 1.00 47.45 8 ATOM 1487 OW WAT W 131 11.516 67.657 23.120 1.00 55.77 8 ATOM 1488 OW WAT W 132 5.346 61.188 13.510 1.00 29.53 8 ATOM 1489 OW WAT W 133 13.484 40.850 3.961 1.00 38.04 8 ATOM 1490 OW WAT W 134 6.017 48.953 24.748 1.00 98.99 8 ATOM 1491 OW WAT W 135 12.715 45.073 31.090 1.00 47.26 8 ATOM 1492 OW WAT W 136 8.319 40.420 −2.773 1.00 47.04 8 ATOM 1493 OW WAT W 137 −8.731 32.859 33.302 1.00 49.10 8 ATOM 1494 OW WAT W 138 15.813 48.959 17.249 1.00 53.10 8 ATOM 1495 OW WAT W 139 −15.705 39.364 21.958 1.00 63.55 8 ATOM 1496 OW WAT W 140 −5.095 45.138 17.428 1.00 45.00 8 ATOM 1497 OW WAT W 141 −13.312 30.683 20.947 1.00 53.07 8 ATOM 1498 OW WAT W 142 −13.192 60.851 8.504 1.00 52.13 8 ATOM 1499 OW WAT W 143 23.328 40.686 16.795 1.00 47.26 8 ATOM 1500 OW WAT W 144 13.616 60.813 17.279 1.00 43.28 8 ATOM 1501 OW WAT W 145 12.017 47.329 −3.100 1.00 48.09 8 ATOM 1502 OW WAT W 146 10.595 61.299 −1.506 1.00 49.06 8 ATOM 1503 OW WAT W 147 8.027 61.147 −4.069 1.00 52.20 8 ATOM 1504 OW WAT W 148 −6.283 49.644 10.949 1.00 57.39 8 ATOM 1505 OW WAT W 149 −9.469 40.692 26.922 1.00 43.53 8 ATOM 1506 OW WAT W 150 19.210 50.226 21.171 1.00 58.41 8 ATOM 1507 OW WAT W 151 2.611 26.546 15.184 1.00 50.95 8 ATOM 1508 OW WAT W 152 3.965 46.489 −3.009 1.00 57.99 8 ATOM 1509 OW WAT W 153 16.271 55.882 11.030 1.00 48.24 8 ATOM 1510 OW WAT W 154 1.184 67.205 −1.174 1.00 47.38 8 ATOM 1511 OW WAT W 155 2.482 46.558 0.974 1.00 67.17 8 ATOM 1512 OW WAT W 156 11.027 55.889 23.958 1.00 54.67 8 ATOM 1513 OW WAT W 157 −4.446 30.923 22.181 1.00 62.18 8 ATOM 1514 OW WAT W 158 −3.844 44.313 24.890 1.00 42.34 8 ATOM 1515 OW WAT W 159 14.549 53.163 20.560 1.00 49.30 8 ATOM 1516 OW WAT W 160 −3.797 31.575 19.705 1.00 69.49 8 ATOM 1517 OW WAT W 161 6.756 25.504 17.575 1.00 49.43 8 ATOM 1518 OW WAT W 162 10.788 30.257 35.433 1.00 36.60 8 ATOM 1519 OW WAT W 163 21.237 50.223 9.133 1.00 56.25 8 ATOM 1520 OW WAT W 164 −6.177 45.663 3.966 1.00 58.49 8 ATOM 1521 OW WAT W 165 −1.644 33.990 22.144 1.00 32.61 8 ATOM 1522 OW WAT W 166 20.594 39.565 9.528 1.00 54.57 8 ATOM 1523 OW WAT W 167 15.964 59.646 9.793 1.00 50.70 8 ATOM 1524 OW WAT W 168 7.316 50.423 25.713 1.00 47.49 8 ATOM 1525 OW WAT W 169 23.295 32.789 15.200 1.00 57.39 8 ATOM 1526 OW WAT W 170 −6.898 46.350 20.730 1.00 50.13 8 ATOM 1527 OW WAT W 171 −8.760 52.976 −3.940 1.00 55.95 8 ATOM 1528 OW WAT W 172 −2.895 48.110 26.454 1.00 68.31 8 ATOM 1529 OW WAT W 173 −1.144 71.221 17.499 1.00 50.95 8 ATOM 1530 OW WAT W 174 12.604 56.338 22.115 1.00 55.77 8 ATOM 1531 OW WAT W 175 22.778 50.987 6.750 1.00 51.42 8 ATOM 1532 OW WAT W 176 9.430 60.647 −6.523 1.00 61.73 8 ATOM 1533 OW WAT W 177 15.767 60.697 14.713 1.00 61.57 8 ATOM 1534 OW WAT W 178 22.291 46.306 8.351 1.00 64.25 8 ATOM 1535 OW WAT W 179 14.393 57.247 1.565 1.00 50.53 8 ATOM 1536 OW WAT W 180 6.277 72.244 1.677 1.00 56.50 8 ATOM 1537 OW WAT W 181 −5.357 56.977 16.549 1.00 63.38 8 ATOM 1538 OW WAT W 182 20.252 47.811 25.759 1.00 59.54 8 ATOM 1539 OW WAT W 183 −0.767 65.909 −2.025 1.00 59.74 8 ATOM 1540 OW WAT W 184 8.023 52.581 −3.823 1.00 57.61 8 ATOM 1541 OW WAT W 185 22.973 31.298 13.186 1.00 61.46 8 ATOM 1542 OW WAT W 186 21.890 46.952 18.566 1.00 62.99 8 ATOM 1543 OW WAT W 187 12.545 56.301 −0.180 1.00 62.12 8 ATOM 1544 OW WAT W 188 0.899 33.958 8.083 1.00 52.91 8 ATOM 1545 OW WAT W 189 −4.871 46.670 29.841 1.00 66.19 8 ATOM 1546 OW WAT W 190 −1.898 31.738 34.170 1.00 52.17 8 ATOM 1547 OW WAT W 191 −1.189 41.151 2.866 1.00 53.86 8 ATOM 1548 OW WAT W 192 22.565 44.586 11.059 1.00 62.34 8 ATOM 1549 OW WAT W 193 −5.244 44.118 13.781 1.00 60.66 8 ATOM 1550 OW WAT W 194 5.422 49.607 −0.947 1.00 53.84 8 END 

1. A method for modulating the ability of a tetraspanin protein to form a dimer with the wild-type tetraspanin, comprising the step of mutating at least one of the amino acids corresponding to human CD81 (SEQ ID NO:1) residues 114, 119, 123, 125, 126, 129, 142, 146, 149, 150, 153, 154, 197, 198, 199 and 200; wherein said mutated tetraspanin protein has a decreased ability to form a dimer with the wild-type tetraspanin.
 2. The method of claim 1, wherein in the step of mutating at least one of the amino acids a non-polar residue is replaced by a polar residue.
 3. The method of claim 1, wherein in the step of mutating at least one of the amino acids a non-polar residue is replaced by another non-polar residue.
 4. The method of claim 1, wherein the tetraspanin is selected from the group consisting of CD9, TSPAN2, CD53, CD82, CD63, TALLA-1, and NET4.
 5. The method of claim 4, wherein the tetraspanin is CD82.
 6. The method of claim 4, wherein the tetraspanin is CD63.
 7. A method for modulating the ability of a tetraspanin CD81 protein to form a dimer with a wild-type tetraspanin, comprising the step of mutating at least one of the amino acids corresponding to human CD81 (SEQ ID NO:1) residues 114, 119, 123, 125, 126, 129, 142, 146, 149, 150, 153, 154, 197, 198, 199 and 200; wherein said tetraspanin CD81 protein has a decreased ability to form a dimer with the wild-type tetraspanin.
 8. A mutant tetraspanin protein which, compared with the wild-type protein, has a decreased ability to form a dimer with the wild-type protein.
 9. The mutant tetraspanin of claim 8, wherein the mutant has a non-wild-type amino acid at one or more residues corresponding to human CD81 (SEQ ID NO:1) residues 114, 119, 123, 125, 126, 129, 142, 146, 149, 150, 153, 154, 197, 198, 199 and
 200. 10. The mutant tetraspanin of claim 9, wherein the tetraspanin is selected from the group consisting of CD9, TSPAN2, CD53, CD82, CD63, TALLA-1, and NET4.
 11. The method of claim 10, wherein the tetraspanin is CD82.
 12. The method of claim 10, wherein the tetraspanin is CD63.
 13. The mutant tetraspanin of claim 9, wherein the tetraspanin is CD81.
 14. A tetraspanin dimer, wherein one or both of the monomers is a mutant tetraspanin according to any one of claims 8 to
 13. 